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microsoft
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FStarDataSet-V2

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train · 30.9k rows

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Steel.ST.GenElim.fst	Steel.ST.GenElim.compute_gen_elim_f_star	val compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2))	val compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2))	let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) = fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_elim_p i2); let res1 = f1 _ in let res2 = f2 _ in let res : compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite (compute_gen_elim_q i1 res1 `star` compute_gen_elim_q i2 res2) (compute_gen_elim_q (GEStar i1 i2) res); res	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 5, "end_line": 92, "start_col": 0, "start_line": 80 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res' let compute_gen_elim_f_star_r (i1: gen_unit_elim_i) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStarR i1 i2)) = let f1 = compute_gen_unit_elim_f i1 in fun _ -> rewrite (compute_gen_elim_p (GEStarR i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_elim_p i2); f1 _; let res = f2 _ in let res' : compute_gen_elim_a (GEStarR i1 i2) = coerce_with_trefl res in rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_elim_q i2 res) (compute_gen_elim_q (GEStarR i1 i2) res'); res'	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	i1: Steel.ST.GenElim.Base.gen_elim_i -> f1: Steel.ST.GenElim.gen_elim_t i1 -> i2: Steel.ST.GenElim.Base.gen_elim_i -> f2: Steel.ST.GenElim.gen_elim_t i2 -> Prims.GTot (Steel.ST.GenElim.gen_elim_t (Steel.ST.GenElim.Base.GEStar i1 i2))	Prims.GTot	[ "sometrivial" ]	[]	[ "Steel.ST.GenElim.Base.gen_elim_i", "Steel.ST.GenElim.gen_elim_t", "Steel.Memory.inames", "Steel.ST.GenElim.Base.compute_gen_elim_a", "Steel.ST.GenElim.Base.GEStar", "Prims.unit", "Steel.ST.Util.rewrite", "Steel.Effect.Common.star", "Steel.ST.GenElim.Base.compute_gen_elim_q", "Steel.ST.GenElim.Base.coerce_with_trefl", "FStar.Pervasives.Native.tuple2", "FStar.Pervasives.Native.Mktuple2", "Steel.ST.GenElim.Base.compute_gen_elim_p" ]	[]	false	false	false	false	false	let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) =	fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) ((compute_gen_elim_p i1) `star` (compute_gen_elim_p i2)); let res1 = f1 _ in let res2 = f2 _ in let res:compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite ((compute_gen_elim_q i1 res1) `star` (compute_gen_elim_q i2 res2)) (compute_gen_elim_q (GEStar i1 i2) res); res	false
Steel.ST.GenElim.fst	Steel.ST.GenElim.tele_star_vprop_correct_ret	val tele_star_vprop_correct_ret (v': vprop) (p': prop) (v: vprop) (p: prop) : Tot (vprop_rewrite (((tele_p (TRet v' p')) `star` v) `star` (pure p)) (tele_p (tele_star_vprop (TRet v' p') v p)))	val tele_star_vprop_correct_ret (v': vprop) (p': prop) (v: vprop) (p: prop) : Tot (vprop_rewrite (((tele_p (TRet v' p')) `star` v) `star` (pure p)) (tele_p (tele_star_vprop (TRet v' p') v p)))	let tele_star_vprop_correct_ret (v': vprop) (p': prop) (v: vprop) (p: prop) : Tot (vprop_rewrite (tele_p (TRet v' p') `star` v `star` pure p) (tele_p (tele_star_vprop (TRet v' p') v p))) = fun _ -> elim_pure p; rewrite (tele_p _) (v' `star` pure p'); elim_pure p'; intro_pure (p /\ p'); rewrite ((v `star` v') `star` pure (p /\ p')) (tele_p _)	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 60, "end_line": 178, "start_col": 0, "start_line": 170 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res' let compute_gen_elim_f_star_r (i1: gen_unit_elim_i) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStarR i1 i2)) = let f1 = compute_gen_unit_elim_f i1 in fun _ -> rewrite (compute_gen_elim_p (GEStarR i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_elim_p i2); f1 _; let res = f2 _ in let res' : compute_gen_elim_a (GEStarR i1 i2) = coerce_with_trefl res in rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_elim_q i2 res) (compute_gen_elim_q (GEStarR i1 i2) res'); res' let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) = fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_elim_p i2); let res1 = f1 _ in let res2 = f2 _ in let res : compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite (compute_gen_elim_q i1 res1 `star` compute_gen_elim_q i2 res2) (compute_gen_elim_q (GEStar i1 i2) res); res let compute_gen_elim_f_exists_no_abs (a: Type0) (body: (a -> vprop)) : GTot (gen_elim_t (GEExistsNoAbs body)) = fun _ -> rewrite (compute_gen_elim_p (GEExistsNoAbs body)) (exists_ body); let gres = elim_exists () in let res : compute_gen_elim_a (GEExistsNoAbs body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (body gres) (compute_gen_elim_q (GEExistsNoAbs body) res); res let rewrite_with_trefl (#opened:_) (p q:vprop) : STGhost unit opened p (fun _ -> q) (requires T.with_tactic T.trefl (p == q)) (ensures fun _ -> True) = rewrite p q let compute_gen_elim_f_exists_unit (a: Type0) (body: a -> gen_unit_elim_i) : Tot (gen_elim_t (GEExistsUnit body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExistsUnit body)) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let gres = elim_exists () in compute_gen_unit_elim_f (body gres) _; let res : compute_gen_elim_a (GEExistsUnit body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (compute_gen_unit_elim_q (body gres)) (compute_gen_elim_q (GEExistsUnit body) res); res let compute_gen_elim_f_exists (a: Type0) (body: a -> gen_elim_i) (f: (x: a) -> GTot (gen_elim_t (body x))) : Tot (gen_elim_t (GEExists body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExists body)) (exists_ (fun x -> compute_gen_elim_p (body x))); let gres1 = elim_exists () in let gres2 = f gres1 _ in let res : compute_gen_elim_a (GEExists body) = coerce_with_trefl (Mkdtuple2 #a #(fun x -> compute_gen_elim_a (body x)) (Ghost.reveal gres1) (Ghost.reveal gres2)) in rewrite (compute_gen_elim_q (body gres1) gres2) (compute_gen_elim_q (GEExists body) res); res let rec compute_gen_elim_f (i: gen_elim_i) : GTot (gen_elim_t i) = match i returns (gen_elim_t i) with \| GEUnit i -> compute_gen_elim_f_unit i \| GEStarL i1 i2 -> compute_gen_elim_f_star_l i1 (compute_gen_elim_f i1) i2 \| GEStarR i1 i2 -> compute_gen_elim_f_star_r i1 i2 (compute_gen_elim_f i2) \| GEStar i1 i2 -> compute_gen_elim_f_star i1 (compute_gen_elim_f i1) i2 (compute_gen_elim_f i2) \| GEExistsNoAbs body -> compute_gen_elim_f_exists_no_abs _ body \| GEExistsUnit body -> compute_gen_elim_f_exists_unit _ body \| GEExists body -> compute_gen_elim_f_exists _ body (fun x -> compute_gen_elim_f (body x)) let rec tele_p (x: gen_elim_tele) : Tot vprop = match x with \| TRet v p -> v `star` pure p \| TExists ty body -> exists_ (fun x -> tele_p (body x)) let elim_exists' (#a:Type) (#opened_invariants:_) (#p:a -> vprop) (_:unit) : STGhostT (a) opened_invariants (exists_ p) (fun x -> p x) = let gx = elim_exists () in let x = Ghost.reveal gx in rewrite (p gx) (p x); x let vprop_rewrite (from to: vprop) : Tot Type = gen_elim_f from unit (fun _ -> to) (fun _ -> True)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	v': Steel.Effect.Common.vprop -> p': Prims.prop -> v: Steel.Effect.Common.vprop -> p: Prims.prop -> Steel.ST.GenElim.vprop_rewrite (Steel.Effect.Common.star (Steel.Effect.Common.star (Steel.ST.GenElim.tele_p (Steel.ST.GenElim.Base.TRet v' p')) v) (Steel.ST.Util.pure p)) (Steel.ST.GenElim.tele_p (Steel.ST.GenElim.Base.tele_star_vprop (Steel.ST.GenElim.Base.TRet v' p') v p))	Prims.Tot	[ "total" ]	[]	[ "Steel.Effect.Common.vprop", "Prims.prop", "Steel.Memory.inames", "Steel.ST.Util.rewrite", "Steel.Effect.Common.star", "Steel.ST.Util.pure", "Prims.l_and", "Steel.ST.GenElim.tele_p", "Steel.ST.GenElim.Base.tele_star_vprop", "Steel.ST.GenElim.Base.TRet", "Prims.unit", "Steel.ST.Util.intro_pure", "Steel.ST.Util.elim_pure", "Steel.ST.GenElim.vprop_rewrite" ]	[]	false	false	false	false	false	let tele_star_vprop_correct_ret (v': vprop) (p': prop) (v: vprop) (p: prop) : Tot (vprop_rewrite (((tele_p (TRet v' p')) `star` v) `star` (pure p)) (tele_p (tele_star_vprop (TRet v' p') v p))) =	fun _ -> elim_pure p; rewrite (tele_p _) (v' `star` (pure p')); elim_pure p'; intro_pure (p /\ p'); rewrite ((v `star` v') `star` (pure (p /\ p'))) (tele_p _)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.lemma_create_heaplets	val lemma_create_heaplets (buffers:list buffer_info) (h1:vale_full_heap) : Lemma (requires mem_inv h1 /\ is_initial_heap h1.vf_layout h1.vf_heap /\ init_heaplets_req h1.vf_heap (list_to_seq buffers) ) (ensures ( let h2 = create_heaplets buffers h1 in let bs = list_to_seq buffers in h1.vf_heap == h2.vf_heap /\ h1.vf_heaplets == h2.vf_heaplets /\ h1.vf_layout.vl_taint == h2.vf_layout.vl_taint /\ get_heaplet_id h1.vf_heap == None /\ layout_heaplets_initialized h2.vf_layout.vl_inner /\ layout_modifies_loc h2.vf_layout.vl_inner == loc_mutable_buffers buffers /\ layout_old_heap h2.vf_layout.vl_inner == h1.vf_heap /\ layout_buffers h2.vf_layout.vl_inner == bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> ( let Mkbuffer_info t b hid _ mut = Seq.index bs i in valid_layout_buffer_id t b h2.vf_layout (Some hid) false /\ valid_layout_buffer_id t b h2.vf_layout (Some hid) (mut = Mutable))) /\ (forall (i:heaplet_id).{:pattern Map16.sel h2.vf_heaplets i} get_heaplet_id (Map16.sel h2.vf_heaplets i) == Some i /\ heaps_match bs h1.vf_layout.vl_taint h1.vf_heap (Map16.sel h2.vf_heaplets i) i) /\ mem_inv h2 ))	val lemma_create_heaplets (buffers:list buffer_info) (h1:vale_full_heap) : Lemma (requires mem_inv h1 /\ is_initial_heap h1.vf_layout h1.vf_heap /\ init_heaplets_req h1.vf_heap (list_to_seq buffers) ) (ensures ( let h2 = create_heaplets buffers h1 in let bs = list_to_seq buffers in h1.vf_heap == h2.vf_heap /\ h1.vf_heaplets == h2.vf_heaplets /\ h1.vf_layout.vl_taint == h2.vf_layout.vl_taint /\ get_heaplet_id h1.vf_heap == None /\ layout_heaplets_initialized h2.vf_layout.vl_inner /\ layout_modifies_loc h2.vf_layout.vl_inner == loc_mutable_buffers buffers /\ layout_old_heap h2.vf_layout.vl_inner == h1.vf_heap /\ layout_buffers h2.vf_layout.vl_inner == bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> ( let Mkbuffer_info t b hid _ mut = Seq.index bs i in valid_layout_buffer_id t b h2.vf_layout (Some hid) false /\ valid_layout_buffer_id t b h2.vf_layout (Some hid) (mut = Mutable))) /\ (forall (i:heaplet_id).{:pattern Map16.sel h2.vf_heaplets i} get_heaplet_id (Map16.sel h2.vf_heaplets i) == Some i /\ heaps_match bs h1.vf_layout.vl_taint h1.vf_heap (Map16.sel h2.vf_heaplets i) i) /\ mem_inv h2 ))	let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 186, "start_col": 0, "start_line": 179 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	buffers: Prims.list Vale.Arch.HeapImpl.buffer_info -> h1: Vale.Arch.HeapImpl.vale_full_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.mem_inv h1 /\ Vale.PPC64LE.Memory.is_initial_heap (Mkvale_full_heap?.vf_layout h1) (Mkvale_full_heap?.vf_heap h1) /\ Vale.PPC64LE.Memory.init_heaplets_req (Mkvale_full_heap?.vf_heap h1) (Vale.Lib.Seqs.list_to_seq buffers)) (ensures (let h2 = Vale.PPC64LE.Memory_Sems.create_heaplets buffers h1 in let bs = Vale.Lib.Seqs.list_to_seq buffers in Mkvale_full_heap?.vf_heap h1 == Mkvale_full_heap?.vf_heap h2 /\ Mkvale_full_heap?.vf_heaplets h1 == Mkvale_full_heap?.vf_heaplets h2 /\ Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout h1) == Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout h2) /\ Vale.PPC64LE.Memory.get_heaplet_id (Mkvale_full_heap?.vf_heap h1) == FStar.Pervasives.Native.None /\ Vale.PPC64LE.Memory.layout_heaplets_initialized (Mkvale_heap_layout?.vl_inner (Mkvale_full_heap?.vf_layout h2)) /\ Vale.PPC64LE.Memory.layout_modifies_loc (Mkvale_heap_layout?.vl_inner (Mkvale_full_heap?.vf_layout h2)) == Vale.PPC64LE.Memory.loc_mutable_buffers buffers /\ Vale.PPC64LE.Memory.layout_old_heap (Mkvale_heap_layout?.vl_inner (Mkvale_full_heap?.vf_layout h2)) == Mkvale_full_heap?.vf_heap h1 /\ Vale.PPC64LE.Memory.layout_buffers (Mkvale_heap_layout?.vl_inner (Mkvale_full_heap?.vf_layout h2)) == bs /\ (forall (i: Prims.nat). {:pattern FStar.Seq.Base.index bs i} i < FStar.Seq.Base.length bs ==> (let _ = FStar.Seq.Base.index bs i in (let { bi_typ = t ; bi_buffer = b ; bi_heaplet = hid ; bi_taint = _ ; bi_mutable = mut } = _ in Vale.PPC64LE.Memory.valid_layout_buffer_id t b (Mkvale_full_heap?.vf_layout h2) (FStar.Pervasives.Native.Some hid) false /\ Vale.PPC64LE.Memory.valid_layout_buffer_id t b (Mkvale_full_heap?.vf_layout h2) (FStar.Pervasives.Native.Some hid) (mut = Vale.Arch.HeapImpl.Mutable)) <: Prims.logical)) /\ (forall (i: Vale.Arch.HeapImpl.heaplet_id). {:pattern Vale.Lib.Map16.sel (Mkvale_full_heap?.vf_heaplets h2) i} Vale.PPC64LE.Memory.get_heaplet_id (Vale.Lib.Map16.sel (Mkvale_full_heap?.vf_heaplets h2 ) i) == FStar.Pervasives.Native.Some i /\ Vale.PPC64LE.Memory.heaps_match bs (Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout h1)) (Mkvale_full_heap?.vf_heap h1) (Vale.Lib.Map16.sel (Mkvale_full_heap?.vf_heaplets h2) i) i) /\ Vale.PPC64LE.Memory.mem_inv h2))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.list", "Vale.Arch.HeapImpl.buffer_info", "Vale.Arch.HeapImpl.vale_full_heap", "Prims.unit", "FStar.Pervasives.reveal_opaque", "Vale.Arch.HeapTypes_s.base_typ", "Vale.PPC64LE.Memory.buffer", "Vale.Arch.HeapImpl.vale_heap_layout", "FStar.Pervasives.Native.option", "Vale.Arch.HeapImpl.heaplet_id", "Prims.bool", "Vale.Def.Prop_s.prop0", "Vale.PPC64LE.Memory.valid_layout_buffer_id", "Vale.PPC64LE.Memory_Sems.lemma_loc_mutable_buffers", "Vale.PPC64LE.Memory_Sems.lemma_make_owns", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_heap", "FStar.Seq.Base.length", "Prims._assert", "Prims.eq2", "FStar.Seq.Base.seq", "Vale.Arch.HeapImpl.__proj__Mkvale_heap_layout_inner__item__vl_buffers", "Vale.Arch.HeapImpl.__proj__Mkvale_heap_layout__item__vl_inner", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_layout", "Vale.PPC64LE.Memory_Sems.create_heaplets", "Vale.Lib.Seqs.list_to_seq" ]	[]	true	false	true	false	false	let lemma_create_heaplets buffers h1 =	let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	false
Steel.ST.GenElim.fst	Steel.ST.GenElim.compute_gen_elim_f_exists_unit	val compute_gen_elim_f_exists_unit (a: Type0) (body: (a -> gen_unit_elim_i)) : Tot (gen_elim_t (GEExistsUnit body))	val compute_gen_elim_f_exists_unit (a: Type0) (body: (a -> gen_unit_elim_i)) : Tot (gen_elim_t (GEExistsUnit body))	let compute_gen_elim_f_exists_unit (a: Type0) (body: a -> gen_unit_elim_i) : Tot (gen_elim_t (GEExistsUnit body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExistsUnit body)) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let gres = elim_exists () in compute_gen_unit_elim_f (body gres) _; let res : compute_gen_elim_a (GEExistsUnit body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (compute_gen_unit_elim_q (body gres)) (compute_gen_elim_q (GEExistsUnit body) res); res	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 5, "end_line": 123, "start_col": 0, "start_line": 113 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res' let compute_gen_elim_f_star_r (i1: gen_unit_elim_i) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStarR i1 i2)) = let f1 = compute_gen_unit_elim_f i1 in fun _ -> rewrite (compute_gen_elim_p (GEStarR i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_elim_p i2); f1 _; let res = f2 _ in let res' : compute_gen_elim_a (GEStarR i1 i2) = coerce_with_trefl res in rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_elim_q i2 res) (compute_gen_elim_q (GEStarR i1 i2) res'); res' let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) = fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_elim_p i2); let res1 = f1 _ in let res2 = f2 _ in let res : compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite (compute_gen_elim_q i1 res1 `star` compute_gen_elim_q i2 res2) (compute_gen_elim_q (GEStar i1 i2) res); res let compute_gen_elim_f_exists_no_abs (a: Type0) (body: (a -> vprop)) : GTot (gen_elim_t (GEExistsNoAbs body)) = fun _ -> rewrite (compute_gen_elim_p (GEExistsNoAbs body)) (exists_ body); let gres = elim_exists () in let res : compute_gen_elim_a (GEExistsNoAbs body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (body gres) (compute_gen_elim_q (GEExistsNoAbs body) res); res let rewrite_with_trefl (#opened:_) (p q:vprop) : STGhost unit opened p (fun _ -> q) (requires T.with_tactic T.trefl (p == q)) (ensures fun _ -> True) = rewrite p q	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type0 -> body: (_: a -> Steel.ST.GenElim.Base.gen_unit_elim_i) -> Steel.ST.GenElim.gen_elim_t (Steel.ST.GenElim.Base.GEExistsUnit body)	Prims.Tot	[ "total" ]	[]	[ "Steel.ST.GenElim.Base.gen_unit_elim_i", "Steel.Memory.inames", "Steel.ST.GenElim.Base.compute_gen_elim_a", "Steel.ST.GenElim.Base.GEExistsUnit", "Prims.unit", "Steel.ST.Util.rewrite", "Steel.ST.GenElim.Base.compute_gen_unit_elim_q", "FStar.Ghost.reveal", "Steel.ST.GenElim.Base.compute_gen_elim_q", "Steel.ST.GenElim.Base.coerce_with_trefl", "Steel.ST.GenElim.compute_gen_unit_elim_f", "FStar.Ghost.erased", "Steel.ST.Util.elim_exists", "Steel.ST.GenElim.Base.compute_gen_unit_elim_p", "Steel.Effect.Common.vprop", "Steel.ST.GenElim.rewrite_with_trefl", "Steel.ST.GenElim.Base.compute_gen_elim_p", "Steel.ST.Util.exists_", "Steel.ST.GenElim.gen_elim_t" ]	[]	false	false	false	false	false	let compute_gen_elim_f_exists_unit (a: Type0) (body: (a -> gen_unit_elim_i)) : Tot (gen_elim_t (GEExistsUnit body)) =	fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExistsUnit body)) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let gres = elim_exists () in compute_gen_unit_elim_f (body gres) _; let res:compute_gen_elim_a (GEExistsUnit body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (compute_gen_unit_elim_q (body gres)) (compute_gen_elim_q (GEExistsUnit body) res); res	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.length_up64	val length_up64 (b: buffer64) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc))	val length_up64 (b: buffer64) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc))	let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 17, "end_line": 231, "start_col": 0, "start_line": 228 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64 -> h: Vale.Arch.HeapImpl.vale_heap -> k: Prims.nat{k < Vale.PPC64LE.Memory.buffer_length b} -> i: Prims.nat{i < 8} -> FStar.Pervasives.Lemma (ensures Vale.PPC64LE.Memory.scale8 k + i <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.Arch.HeapImpl.vale_heap", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint64", "LowStar.BufferView.Up.length_eq", "FStar.UInt64.t", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.PPC64LE.Memory.uint64_view", "Prims.unit", "Prims.l_True", "Prims.squash", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale8", "LowStar.BufferView.Down.length", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let length_up64 (b: buffer64) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) =	let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.equiv_load_mem128	val equiv_load_mem128 (ptr:int) (m:vale_heap) : Lemma (requires valid_mem128 ptr m) (ensures load_mem128 ptr m == S.get_heap_val128 ptr (get_heap m))	val equiv_load_mem128 (ptr:int) (m:vale_heap) : Lemma (requires valid_mem128 ptr m) (ensures load_mem128 ptr m == S.get_heap_val128 ptr (get_heap m))	let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 29, "end_line": 753, "start_col": 0, "start_line": 752 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> m: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.valid_mem128 ptr m) (ensures Vale.PPC64LE.Memory.load_mem128 ptr m == Vale.Arch.MachineHeap_s.get_heap_val128 ptr (Vale.PPC64LE.Memory_Sems.get_heap m))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory_Sems.equiv_load_mem128_aux", "Prims.unit" ]	[]	true	false	true	false	false	let equiv_load_mem128 ptr h =	equiv_load_mem128_aux ptr h	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.bytes_valid64	val bytes_valid64 (i:int) (m:vale_heap) : Lemma (requires valid_mem64 i m) (ensures S.valid_addr64 i (get_heap m)) [SMTPat (S.valid_addr64 i (get_heap m))]	val bytes_valid64 (i:int) (m:vale_heap) : Lemma (requires valid_mem64 i m) (ensures S.valid_addr64 i (get_heap m)) [SMTPat (S.valid_addr64 i (get_heap m))]	let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 36, "end_line": 467, "start_col": 0, "start_line": 454 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	i: Prims.int -> m: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.valid_mem64 i m) (ensures Vale.Arch.MachineHeap_s.valid_addr64 i (Vale.PPC64LE.Memory_Sems.get_heap m)) [SMTPat (Vale.Arch.MachineHeap_s.valid_addr64 i (Vale.PPC64LE.Memory_Sems.get_heap m))]	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.HeapImpl.vale_heap", "Vale.Interop.addrs_set_mem", "Vale.Arch.HeapImpl._ih", "Prims.op_Addition", "Prims.unit", "Vale.PPC64LE.Memory_Sems.in_bounds64", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.HeapImpl.buffer", "Vale.PPC64LE.Memory.get_addr_ptr", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt64", "FStar.Pervasives.reveal_opaque", "Vale.Arch.MachineHeap_s.machine_heap", "Prims.bool", "Vale.Arch.MachineHeap_s.valid_addr64" ]	[]	true	false	true	false	false	let bytes_valid64 ptr h =	reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr + 1); I.addrs_set_mem (_ih h) b (ptr + 2); I.addrs_set_mem (_ih h) b (ptr + 3); I.addrs_set_mem (_ih h) b (ptr + 4); I.addrs_set_mem (_ih h) b (ptr + 5); I.addrs_set_mem (_ih h) b (ptr + 6); I.addrs_set_mem (_ih h) b (ptr + 7)	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_lemma_Loop6x_loop	val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))	val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))	let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "*** POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new)	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 23, "end_line": 4841, "start_col": 0, "start_line": 4751 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 750, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.X64.Decls.va_code -> va_s0: Vale.X64.Decls.va_state -> alg: Vale.AES.AES_common_s.algorithm -> h_LE: Vale.X64.Decls.quad32 -> y_orig: Vale.X64.Decls.quad32 -> y_prev: Vale.X64.Decls.quad32 -> count: Prims.nat -> iv_b: Vale.X64.Memory.buffer128 -> in0_b: Vale.X64.Memory.buffer128 -> in_b: Vale.X64.Memory.buffer128 -> out_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> plain_quads: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 -> round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> keys_b: Vale.X64.Memory.buffer128 -> hkeys_b: Vale.X64.Memory.buffer128 -> ctr_BE_orig: Vale.X64.Decls.quad32 -> ctr_BE: Vale.X64.Decls.quad32 -> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Vale.X64.Decls.quad32)	Prims.Ghost	[]	[]	[ "Vale.X64.Decls.va_code", "Vale.X64.Decls.va_state", "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.quad32", "Prims.nat", "Vale.X64.Memory.buffer128", "FStar.Seq.Base.seq", "Vale.X64.Memory.nat32", "Vale.X64.QuickCodes.fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.Decls.va_fuel", "Vale.Def.Types_s.quad32", "Prims.unit", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_reg64", "Vale.X64.Machine_s.rR14", "Vale.X64.Machine_s.rR13", "Vale.X64.Machine_s.rR12", "Vale.X64.Machine_s.rR11", "Vale.X64.Machine_s.rRbx", "Vale.X64.Machine_s.rRdx", "Vale.X64.Machine_s.rRsi", "Vale.X64.Machine_s.rRdi", "Vale.X64.QuickCode.va_Mod_ok", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "FStar.Pervasives.assert_norm", "Prims.eq2", "Prims.list", "Vale.X64.QuickCode.__proj__QProc__item__mods", "Vale.AES.X64.AESGCM.va_code_Loop6x_loop", "FStar.Pervasives.Native.tuple3", "Vale.X64.State.vale_state", "Vale.X64.QuickCodes.va_wp_sound_code_norm", "Prims.l_and", "Vale.X64.QuickCodes.label", "Vale.X64.QuickCodes.va_range1", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.Decls.modifies_buffer_specific128", "Vale.X64.Decls.va_get_mem_heaplet", "Prims.op_Multiply", "Prims.op_Subtraction", "Prims.op_Addition", "Vale.X64.Decls.va_get_reg64", "Prims.int", "Vale.AES.GCTR.gctr_partial", "Vale.X64.Decls.s128", "Vale.X64.Decls.va_get_xmm", "Vale.Def.Types_s.quad32_xor", "Vale.X64.Decls.buffer128_read", "Vale.AES.GCTR.aes_encrypt_BE", "Vale.AES.GCTR.inc32lite", "Vale.AES.GHash.ghash_incremental0", "FStar.Seq.Base.slice", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.AES.X64.AESGCM.scratch_reqs_simple", "Vale.X64.QuickCode.quickCode", "Vale.AES.X64.AESGCM.va_qcode_Loop6x_loop" ]	[]	false	false	false	false	false	let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE =	let va_mods:va_mods_t = [ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem ] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let va_sM, va_fM, va_g = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "*** POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem ]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down64	val written_buffer_down64 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i + 1) <= j /\ j < base + scale8 n) ==> mem1.[ j ] == mem2.[ j ]))	val written_buffer_down64 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i + 1) <= j /\ j < base + scale8 n) ==> mem1.[ j ] == mem2.[ j ]))	let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 64, "end_line": 337, "start_col": 0, "start_line": 318 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))) (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.buffer_write b i v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in let base = Vale.PPC64LE.Memory.buffer_addr b h in let n = Vale.PPC64LE.Memory.buffer_length b in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base <= j /\ j < base + Vale.PPC64LE.Memory.scale8 i \/ base + Vale.PPC64LE.Memory.scale8 (i + 1) <= j /\ j < base + Vale.PPC64LE.Memory.scale8 n ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux2", "Prims.op_Addition", "Prims.unit", "Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux1", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.buffer_write", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Prims.squash", "Prims.l_Forall", "Prims.l_imp", "Prims.l_or", "Prims.l_and", "Prims.op_LessThanOrEqual", "Vale.PPC64LE.Memory.scale8", "Prims.eq2", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let written_buffer_down64 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i + 1) <= j /\ j < base + scale8 n) ==> mem1.[ j ] == mem2.[ j ])) =	let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i + 1) h1 mem1 mem2	false
Steel.ST.GenElim.fst	Steel.ST.GenElim.gen_elim'	val gen_elim' (#opened: _) (enable_nondep_opt: bool) (p: vprop) (a: Type0) (q: Ghost.erased a -> Tot vprop) (post: Ghost.erased a -> Tot prop) (sq: squash (gen_elim_prop_placeholder enable_nondep_opt p a q post)) (_: unit) : STGhost (Ghost.erased a) opened p (fun x -> guard_vprop (q x)) (gen_elim_prop enable_nondep_opt p a q post) post	val gen_elim' (#opened: _) (enable_nondep_opt: bool) (p: vprop) (a: Type0) (q: Ghost.erased a -> Tot vprop) (post: Ghost.erased a -> Tot prop) (sq: squash (gen_elim_prop_placeholder enable_nondep_opt p a q post)) (_: unit) : STGhost (Ghost.erased a) opened p (fun x -> guard_vprop (q x)) (gen_elim_prop enable_nondep_opt p a q post) post	let gen_elim' #opened enable_nondep_opt p a q post _ () = let (i, j) = gen_elim_prop_elim enable_nondep_opt p a q post in rewrite p (compute_gen_elim_p i); let res' = compute_gen_elim_nondep_correct i j () _ in let res : Ghost.erased a = Ghost.hide (coerce_with_smt (Ghost.reveal res')) in rewrite (compute_gen_elim_nondep_q i j res') (guard_vprop (q res)); res	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 5, "end_line": 754, "start_col": 0, "start_line": 746 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res' let compute_gen_elim_f_star_r (i1: gen_unit_elim_i) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStarR i1 i2)) = let f1 = compute_gen_unit_elim_f i1 in fun _ -> rewrite (compute_gen_elim_p (GEStarR i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_elim_p i2); f1 _; let res = f2 _ in let res' : compute_gen_elim_a (GEStarR i1 i2) = coerce_with_trefl res in rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_elim_q i2 res) (compute_gen_elim_q (GEStarR i1 i2) res'); res' let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) = fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_elim_p i2); let res1 = f1 _ in let res2 = f2 _ in let res : compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite (compute_gen_elim_q i1 res1 `star` compute_gen_elim_q i2 res2) (compute_gen_elim_q (GEStar i1 i2) res); res let compute_gen_elim_f_exists_no_abs (a: Type0) (body: (a -> vprop)) : GTot (gen_elim_t (GEExistsNoAbs body)) = fun _ -> rewrite (compute_gen_elim_p (GEExistsNoAbs body)) (exists_ body); let gres = elim_exists () in let res : compute_gen_elim_a (GEExistsNoAbs body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (body gres) (compute_gen_elim_q (GEExistsNoAbs body) res); res let rewrite_with_trefl (#opened:_) (p q:vprop) : STGhost unit opened p (fun _ -> q) (requires T.with_tactic T.trefl (p == q)) (ensures fun _ -> True) = rewrite p q let compute_gen_elim_f_exists_unit (a: Type0) (body: a -> gen_unit_elim_i) : Tot (gen_elim_t (GEExistsUnit body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExistsUnit body)) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let gres = elim_exists () in compute_gen_unit_elim_f (body gres) _; let res : compute_gen_elim_a (GEExistsUnit body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (compute_gen_unit_elim_q (body gres)) (compute_gen_elim_q (GEExistsUnit body) res); res let compute_gen_elim_f_exists (a: Type0) (body: a -> gen_elim_i) (f: (x: a) -> GTot (gen_elim_t (body x))) : Tot (gen_elim_t (GEExists body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExists body)) (exists_ (fun x -> compute_gen_elim_p (body x))); let gres1 = elim_exists () in let gres2 = f gres1 _ in let res : compute_gen_elim_a (GEExists body) = coerce_with_trefl (Mkdtuple2 #a #(fun x -> compute_gen_elim_a (body x)) (Ghost.reveal gres1) (Ghost.reveal gres2)) in rewrite (compute_gen_elim_q (body gres1) gres2) (compute_gen_elim_q (GEExists body) res); res let rec compute_gen_elim_f (i: gen_elim_i) : GTot (gen_elim_t i) = match i returns (gen_elim_t i) with \| GEUnit i -> compute_gen_elim_f_unit i \| GEStarL i1 i2 -> compute_gen_elim_f_star_l i1 (compute_gen_elim_f i1) i2 \| GEStarR i1 i2 -> compute_gen_elim_f_star_r i1 i2 (compute_gen_elim_f i2) \| GEStar i1 i2 -> compute_gen_elim_f_star i1 (compute_gen_elim_f i1) i2 (compute_gen_elim_f i2) \| GEExistsNoAbs body -> compute_gen_elim_f_exists_no_abs _ body \| GEExistsUnit body -> compute_gen_elim_f_exists_unit _ body \| GEExists body -> compute_gen_elim_f_exists _ body (fun x -> compute_gen_elim_f (body x)) let rec tele_p (x: gen_elim_tele) : Tot vprop = match x with \| TRet v p -> v `star` pure p \| TExists ty body -> exists_ (fun x -> tele_p (body x)) let elim_exists' (#a:Type) (#opened_invariants:_) (#p:a -> vprop) (_:unit) : STGhostT (a) opened_invariants (exists_ p) (fun x -> p x) = let gx = elim_exists () in let x = Ghost.reveal gx in rewrite (p gx) (p x); x let vprop_rewrite (from to: vprop) : Tot Type = gen_elim_f from unit (fun _ -> to) (fun _ -> True) let tele_star_vprop_correct_ret (v': vprop) (p': prop) (v: vprop) (p: prop) : Tot (vprop_rewrite (tele_p (TRet v' p') `star` v `star` pure p) (tele_p (tele_star_vprop (TRet v' p') v p))) = fun _ -> elim_pure p; rewrite (tele_p _) (v' `star` pure p'); elim_pure p'; intro_pure (p /\ p'); rewrite ((v `star` v') `star` pure (p /\ p')) (tele_p _) let tele_star_vprop_correct_exists (v: vprop) (p: prop) (ty: _) (body: ty -> gen_elim_tele) (ih: (x: ty) -> GTot (vprop_rewrite (tele_p (body x) `star` v `star` pure p) (tele_p (tele_star_vprop (body x) v p)))) : Tot (vprop_rewrite (tele_p (TExists ty body) `star` v `star` pure p) (tele_p (tele_star_vprop (TExists ty body) v p))) = fun _ -> rewrite_with_trefl (tele_p _) (exists_ (fun x -> tele_p (body x))); let x = elim_exists' () in ih x _; intro_exists x (fun x -> tele_p (tele_star_vprop (body x) v p)); rewrite_with_trefl (exists_ (fun x -> tele_p (tele_star_vprop (body x) v p))) (tele_p _) let rec tele_star_vprop_correct (i: gen_elim_tele) (v: vprop) (p: prop) : GTot (vprop_rewrite (tele_p i `star` v `star` pure p) (tele_p (tele_star_vprop i v p)) ) = match i returns vprop_rewrite (tele_p i `star` v `star` pure p) (tele_p (tele_star_vprop i v p)) with \| TRet v' p' -> tele_star_vprop_correct_ret v' p' v p \| TExists ty body -> tele_star_vprop_correct_exists v p ty body (fun x -> tele_star_vprop_correct (body x) v p) let tele_star_correct_ret_l (v1: vprop) (p1: prop) (i2: gen_elim_tele) : Tot (vprop_rewrite (tele_p (TRet v1 p1) `star` tele_p i2) (tele_p (TRet v1 p1 `tele_star` i2))) = fun _ -> rewrite (tele_p (TRet v1 p1)) (v1 `star` pure p1); tele_star_vprop_correct i2 v1 p1 _; rewrite (tele_p _) (tele_p _) let tele_star_correct_ret_r (i1: gen_elim_tele { ~ (TRet? i1) }) (v2: vprop) (p2: prop) : Tot (vprop_rewrite (tele_p i1 `star` tele_p (TRet v2 p2)) (tele_p (i1 `tele_star` TRet v2 p2))) = fun _ -> rewrite (tele_p (TRet v2 p2)) (v2 `star` pure p2); tele_star_vprop_correct i1 v2 p2 _; rewrite (tele_p _) (tele_p (i1 `tele_star` TRet v2 p2)) let tele_star_correct_exists (ty1: _) (f1: ty1 -> gen_elim_tele) (ty2: _) (f2: ty2 -> gen_elim_tele) (ih: (x1: ty1) -> (x2: ty2) -> GTot (vprop_rewrite (tele_p (f1 x1) `star` tele_p (f2 x2)) (tele_p (f1 x1 `tele_star` f2 x2)))) : Tot (vprop_rewrite (tele_p (TExists ty1 f1) `star` tele_p (TExists ty2 f2)) (tele_p (tele_star (TExists ty1 f1) (TExists ty2 f2)))) = fun _ -> rewrite_with_trefl (tele_p (TExists ty1 f1)) (exists_ (fun x1 -> tele_p (f1 x1))); let x1 = elim_exists' () in rewrite_with_trefl (tele_p (TExists ty2 f2)) (exists_ (fun x2 -> tele_p (f2 x2))); let x2 = elim_exists' () in ih x1 x2 _; intro_exists x2 (fun x2 -> tele_p (tele_star (f1 x1) (f2 x2))); intro_exists x1 (fun x1 -> exists_ (fun x2 -> tele_p (tele_star (f1 x1) (f2 x2)))); rewrite_with_trefl (exists_ _) (tele_p _) let rec tele_star_correct (i1 i2: gen_elim_tele) : GTot (vprop_rewrite (tele_p i1 `star` tele_p i2) (tele_p (i1 `tele_star` i2))) = match i1 returns vprop_rewrite (tele_p i1 `star` tele_p i2) (tele_p (i1 `tele_star` i2)) with \| TRet v1 p1 -> tele_star_correct_ret_l v1 p1 i2 \| TExists ty1 f1 -> begin match i2 returns vprop_rewrite (tele_p (TExists ty1 f1) `star` tele_p i2) (tele_p (TExists ty1 f1 `tele_star` i2)) with \| TRet v2 p2 -> tele_star_correct_ret_r (TExists ty1 f1) v2 p2 \| TExists ty2 f2 -> tele_star_correct_exists ty1 f1 ty2 f2 (fun x1 x2 -> tele_star_correct (f1 x1) (f2 x2)) end [@@noextract_to "Plugin" ] let ge_to_tele_t (i: gen_elim_i) : Tot Type = vprop_rewrite (compute_gen_elim_p i) (tele_p (compute_gen_elim_tele i)) let compute_gen_elim_tele_correct_unit (v: gen_unit_elim_i) : Tot (ge_to_tele_t (GEUnit v)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (compute_gen_unit_elim_p v); compute_gen_unit_elim_f v _; intro_pure (compute_gen_unit_elim_post v); rewrite_with_trefl (compute_gen_unit_elim_q v `star` pure _) (tele_p _) let compute_gen_elim_tele_correct_star_l (l: gen_elim_i) (ihl: ge_to_tele_t l) (ru: gen_unit_elim_i) : Tot (ge_to_tele_t (GEStarL l ru)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (compute_gen_elim_p l `star` compute_gen_unit_elim_p ru); ihl _; compute_gen_unit_elim_f ru _; intro_pure (compute_gen_unit_elim_post ru); tele_star_vprop_correct _ _ _ _; rewrite_with_trefl (tele_p _) (tele_p _) let compute_gen_elim_tele_correct_star_r (lu: gen_unit_elim_i) (r: gen_elim_i) (ihr: ge_to_tele_t r) : Tot (ge_to_tele_t (GEStarR lu r)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (compute_gen_unit_elim_p lu `star` compute_gen_elim_p r); ihr _; compute_gen_unit_elim_f lu _; intro_pure (compute_gen_unit_elim_post lu); tele_star_vprop_correct _ _ _ _; rewrite_with_trefl (tele_p _) (tele_p _) let compute_gen_elim_tele_correct_star (l: gen_elim_i) (ihl: ge_to_tele_t l) (r: gen_elim_i) (ihr: ge_to_tele_t r) : Tot (ge_to_tele_t (GEStar l r)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (compute_gen_elim_p l `star` compute_gen_elim_p r); ihl _; ihr _; tele_star_correct (compute_gen_elim_tele l) (compute_gen_elim_tele r) _; rewrite_with_trefl (tele_p _) (tele_p _) let compute_gen_elim_tele_correct_exists_no_abs (ty: _) (body: ty -> vprop) : Tot (ge_to_tele_t (GEExistsNoAbs #ty body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (exists_ body); let x = elim_exists' () in intro_pure True; intro_exists x (fun x -> body x `star` pure True); rewrite_with_trefl (exists_ _) (tele_p _) let compute_gen_elim_tele_correct_exists_unit (ty: _) (body: ty -> gen_unit_elim_i) : Tot (ge_to_tele_t (GEExistsUnit #ty body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let x = elim_exists' () in compute_gen_unit_elim_f (body x) _; intro_pure (compute_gen_unit_elim_post (body x)); intro_exists x (fun x -> compute_gen_unit_elim_q (body x) `star` pure (compute_gen_unit_elim_post (body x))); rewrite_with_trefl (exists_ _) (tele_p _) let compute_gen_elim_tele_correct_exists (ty: _) (body: ty -> gen_elim_i) (ih: (x: ty) -> GTot (ge_to_tele_t (body x))) : Tot (ge_to_tele_t (GEExists #ty body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p _) (exists_ (fun x -> compute_gen_elim_p (body x))); let x = elim_exists' () in ih x _; intro_exists x (fun x -> tele_p (compute_gen_elim_tele (body x))); rewrite_with_trefl (exists_ _) (tele_p _) let rec compute_gen_elim_tele_correct (x: gen_elim_i) : GTot (ge_to_tele_t x) = match x returns ge_to_tele_t x with \| GEUnit v -> compute_gen_elim_tele_correct_unit v \| GEStarL l ru -> compute_gen_elim_tele_correct_star_l l (compute_gen_elim_tele_correct l) ru \| GEStarR lu r -> compute_gen_elim_tele_correct_star_r lu r (compute_gen_elim_tele_correct r) \| GEStar l r -> compute_gen_elim_tele_correct_star l (compute_gen_elim_tele_correct l) r (compute_gen_elim_tele_correct r) \| GEExistsNoAbs #ty body -> compute_gen_elim_tele_correct_exists_no_abs ty body \| GEExistsUnit #ty body -> compute_gen_elim_tele_correct_exists_unit ty body \| GEExists #ty body -> compute_gen_elim_tele_correct_exists ty body (fun x -> compute_gen_elim_tele_correct (body x)) let rec gen_elim_nondep_p (ty: list Type0) : Tot (curried_function_type ty vprop -> curried_function_type ty prop -> Tot vprop) = match ty as ty' returns curried_function_type ty' vprop -> curried_function_type ty' prop -> Tot vprop with \| [] -> fun q post -> q `star` pure post \| t :: tq -> fun q post -> exists_ (fun x -> gen_elim_nondep_p tq (q x) (post x)) let rec gen_elim_nondep_sem_correct (ty: list Type0) : Tot ((q: curried_function_type ty vprop) -> (post: curried_function_type ty prop) -> Lemma (tele_p (gen_elim_nondep_sem ty q post) `equiv` gen_elim_nondep_p ty q post) ) = match ty returns ((q: curried_function_type ty vprop) -> (post: curried_function_type ty prop) -> Lemma (tele_p (gen_elim_nondep_sem ty q post) `equiv` gen_elim_nondep_p ty q post) ) with \| [] -> fun q post -> equiv_refl (q `star` pure post) \| ta :: tq -> fun q post -> let phi (x: ta) : Lemma (tele_p (gen_elim_nondep_sem tq (q x) (post x)) `equiv` gen_elim_nondep_p tq (q x) (post x)) = gen_elim_nondep_sem_correct tq (q x) (post x) in Classical.forall_intro phi; let prf () : Lemma (exists_ (fun x -> tele_p (gen_elim_nondep_sem tq (q x) (post x))) `equiv` exists_ (fun x -> gen_elim_nondep_p tq (q x) (post x))) = exists_equiv (fun x -> tele_p (gen_elim_nondep_sem tq (q x) (post x))) (fun x -> gen_elim_nondep_p tq (q x) (post x)) in assert_norm (tele_p (gen_elim_nondep_sem (ta :: tq) q post) == exists_ (fun x -> tele_p (gen_elim_nondep_sem tq (q x) (post x)))); assert_norm (gen_elim_nondep_p (ta :: tq) q post == exists_ (fun x -> gen_elim_nondep_p tq (q x) (post x))); prf () let compute_gen_elim_nondep_correct_t (i0: gen_elim_i) (ty: list Type0) : Tot Type = (q: _) -> (post: _) -> (intro: vprop_rewrite (compute_gen_elim_p i0) (gen_elim_nondep_p ty q post)) -> GTot (gen_elim_f (compute_gen_elim_p i0) (compute_gen_elim_nondep_a' ty) (compute_uncurry vprop (compute_gen_elim_p' i0) ty q) (compute_uncurry prop True ty post) ) let compute_gen_elim_nondep_correct0 (i0: gen_elim_i) : Tot (compute_gen_elim_nondep_correct_t i0 []) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (_ `star` pure post); let res = () in elim_pure _; rewrite_with_trefl q (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct1 (i0: gen_elim_i) (t1: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> q x1 `star` pure (post x1))); let res = elim_exists' () in elim_pure _; rewrite_with_trefl (q _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct2 (i0: gen_elim_i) (t1 t2: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> q x1 x2 `star` pure (post x1 x2)))); let x1 = elim_exists' () in let x2 = elim_exists' () in let res = Mktuple2 x1 x2 in elim_pure _; rewrite_with_trefl (q _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct3 (i0: gen_elim_i) (t1 t2 t3: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> q x1 x2 x3 `star` pure (post x1 x2 x3))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let res = Mktuple3 x1 x2 x3 in elim_pure _; rewrite_with_trefl (q _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct4 (i0: gen_elim_i) (t1 t2 t3 t4: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> q x1 x2 x3 x4 `star` pure (post x1 x2 x3 x4)))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let res = Mktuple4 x1 x2 x3 x4 in elim_pure _; rewrite_with_trefl (q _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct5 (i0: gen_elim_i) (t1 t2 t3 t4 t5: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> q x1 x2 x3 x4 x5 `star` pure (post x1 x2 x3 x4 x5))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let res = Mktuple5 x1 x2 x3 x4 x5 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct6 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> q x1 x2 x3 x4 x5 x6 `star` pure (post x1 x2 x3 x4 x5 x6)))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let res = Mktuple6 x1 x2 x3 x4 x5 x6 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct7 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> q x1 x2 x3 x4 x5 x6 x7 `star` pure (post x1 x2 x3 x4 x5 x6 x7))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let res = Mktuple7 x1 x2 x3 x4 x5 x6 x7 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct8 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> q x1 x2 x3 x4 x5 x6 x7 x8 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8)))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let res = Mktuple8 x1 x2 x3 x4 x5 x6 x7 x8 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct9 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let res = Mktuple9 x1 x2 x3 x4 x5 x6 x7 x8 x9 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct10 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> exists_ (fun x10 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9 x10)))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let x10 = elim_exists' () in let res = Mktuple10 x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct11 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> exists_ (fun x10 -> exists_ (fun x11 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11))))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let x10 = elim_exists' () in let x11 = elim_exists' () in let res = Mktuple11 x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct12 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> exists_ (fun x10 -> exists_ (fun x11 -> exists_ (fun x12 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12)))))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let x10 = elim_exists' () in let x11 = elim_exists' () in let x12 = elim_exists' () in let res = Mktuple12 x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct13 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12; t13]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> exists_ (fun x10 -> exists_ (fun x11 -> exists_ (fun x12 -> exists_ (fun x13 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13))))))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let x10 = elim_exists' () in let x11 = elim_exists' () in let x12 = elim_exists' () in let x13 = elim_exists' () in let res = Mktuple13 x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct14 (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14: Type0) : Tot (compute_gen_elim_nondep_correct_t i0 [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12; t13; t14]) = fun q post intro _ -> intro _; rewrite_with_trefl (gen_elim_nondep_p _ _ _) (exists_ (fun x1 -> exists_ (fun x2 -> exists_ (fun x3 -> exists_ (fun x4 -> exists_ (fun x5 -> exists_ (fun x6 -> exists_ (fun x7 -> exists_ (fun x8 -> exists_ (fun x9 -> exists_ (fun x10 -> exists_ (fun x11 -> exists_ (fun x12 -> exists_ (fun x13 -> exists_ (fun x14 -> q x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13 x14 `star` pure (post x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13 x14)))))))))))))))); let x1 = elim_exists' () in let x2 = elim_exists' () in let x3 = elim_exists' () in let x4 = elim_exists' () in let x5 = elim_exists' () in let x6 = elim_exists' () in let x7 = elim_exists' () in let x8 = elim_exists' () in let x9 = elim_exists' () in let x10 = elim_exists' () in let x11 = elim_exists' () in let x12 = elim_exists' () in let x13 = elim_exists' () in let x14 = elim_exists' () in let res = Mktuple14 x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 x11 x12 x13 x14 in elim_pure _; rewrite_with_trefl (q _ _ _ _ _ _ _ _ _ _ _ _ _ _) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct_default (i0: gen_elim_i) (t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15: Type0) (tq: list Type0) : Tot (compute_gen_elim_nondep_correct_t i0 (t1 :: t2 :: t3 :: t4 :: t5 :: t6 :: t7 :: t8 :: t9 :: t10 :: t11 :: t12 :: t13 :: t14 :: t15 :: tq)) = fun q post intro _ -> // default case: no exists is opened let res : compute_gen_elim_nondep_a' (t1 :: t2 :: t3 :: t4 :: t5 :: t6 :: t7 :: t8 :: t9 :: t10 :: t11 :: t12 :: t13 :: t14 :: t15 :: tq) = coerce_with_trefl () in rewrite_with_trefl (compute_gen_elim_p i0) (compute_uncurry vprop _ _ _ res); res let compute_gen_elim_nondep_correct' (i0: gen_elim_i) (ty: list Type0) : Tot (compute_gen_elim_nondep_correct_t i0 ty) = match ty returns compute_gen_elim_nondep_correct_t i0 ty with \| [] -> compute_gen_elim_nondep_correct0 i0 \| [t1] -> compute_gen_elim_nondep_correct1 i0 t1 \| [t1; t2] -> compute_gen_elim_nondep_correct2 i0 t1 t2 \| [t1; t2; t3] -> compute_gen_elim_nondep_correct3 i0 t1 t2 t3 \| [t1; t2; t3; t4] -> compute_gen_elim_nondep_correct4 i0 t1 t2 t3 t4 \| [t1; t2; t3; t4; t5] -> compute_gen_elim_nondep_correct5 i0 t1 t2 t3 t4 t5 \| [t1; t2; t3; t4; t5; t6] -> compute_gen_elim_nondep_correct6 i0 t1 t2 t3 t4 t5 t6 \| [t1; t2; t3; t4; t5; t6; t7] -> compute_gen_elim_nondep_correct7 i0 t1 t2 t3 t4 t5 t6 t7 \| [t1; t2; t3; t4; t5; t6; t7; t8] -> compute_gen_elim_nondep_correct8 i0 t1 t2 t3 t4 t5 t6 t7 t8 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9] -> compute_gen_elim_nondep_correct9 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10] -> compute_gen_elim_nondep_correct10 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11] -> compute_gen_elim_nondep_correct11 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12] -> compute_gen_elim_nondep_correct12 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12; t13] -> compute_gen_elim_nondep_correct13 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 \| [t1; t2; t3; t4; t5; t6; t7; t8; t9; t10; t11; t12; t13; t14] -> compute_gen_elim_nondep_correct14 i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 \| t1 :: t2 :: t3 :: t4 :: t5 :: t6 :: t7 :: t8 :: t9 :: t10 :: t11 :: t12 :: t13 :: t14 :: t15 :: tq -> compute_gen_elim_nondep_correct_default i0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 tq let compute_gen_elim_nondep_correct_0 (i0: gen_elim_i) (i: gen_elim_nondep_t) = match i returns (sq: squash (check_gen_elim_nondep_sem i0 i)) -> GTot (gen_elim_f (compute_gen_elim_p i0) (compute_gen_elim_nondep_a i0 i) (compute_gen_elim_nondep_q0 i0 i) (compute_gen_elim_nondep_post0 i0 i) ) with \| GEDep -> fun _ -> compute_gen_elim_f i0 \| GENonDep ty q post -> fun _ -> let intro : vprop_rewrite (compute_gen_elim_p i0) (gen_elim_nondep_p ty q post) = fun _ -> compute_gen_elim_tele_correct i0 _; rewrite (tele_p _) (tele_p (gen_elim_nondep_sem ty q post)); gen_elim_nondep_sem_correct ty q post; rewrite_equiv (tele_p _) (gen_elim_nondep_p _ _ _) in compute_gen_elim_nondep_correct' i0 ty q post intro let compute_gen_elim_nondep_correct (i0: gen_elim_i) (i: gen_elim_nondep_t) (sq: squash (check_gen_elim_nondep_sem i0 i)) : Tot (gen_elim_f (compute_gen_elim_p i0) (Ghost.erased (compute_gen_elim_nondep_a i0 i)) (compute_gen_elim_nondep_q i0 i) (compute_gen_elim_nondep_post i0 i) ) = fun _ -> let res0 = compute_gen_elim_nondep_correct_0 i0 i sq _ in let res = Ghost.hide res0 in rewrite (compute_gen_elim_nondep_q0 i0 i res0) (compute_gen_elim_nondep_q i0 i res); res let coerce_with_smt (#tfrom #tto: Type) (x: tfrom) : Pure tto (requires ( (tfrom == tto))) (ensures (fun _ -> True)) = x	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	enable_nondep_opt: Prims.bool -> p: Steel.Effect.Common.vprop -> a: Type0 -> q: (_: FStar.Ghost.erased a -> Steel.Effect.Common.vprop) -> post: (_: FStar.Ghost.erased a -> Prims.prop) -> sq: Prims.squash (Steel.ST.GenElim.Base.gen_elim_prop_placeholder enable_nondep_opt p a q post) -> _: Prims.unit -> Steel.ST.Effect.Ghost.STGhost (FStar.Ghost.erased a)	Steel.ST.Effect.Ghost.STGhost	[]	[]	[ "Steel.Memory.inames", "Prims.bool", "Steel.Effect.Common.vprop", "FStar.Ghost.erased", "Prims.prop", "Prims.squash", "Steel.ST.GenElim.Base.gen_elim_prop_placeholder", "Prims.unit", "Steel.ST.GenElim.Base.gen_elim_i", "Steel.ST.GenElim.Base.gen_elim_nondep_t", "Steel.ST.Util.rewrite", "Steel.ST.GenElim.Base.compute_gen_elim_nondep_q", "Steel.Effect.Common.guard_vprop", "FStar.Ghost.hide", "Steel.ST.GenElim.coerce_with_smt", "Steel.ST.GenElim.Base.compute_gen_elim_nondep_a", "FStar.Ghost.reveal", "Steel.ST.GenElim.compute_gen_elim_nondep_correct", "Steel.ST.GenElim.Base.compute_gen_elim_p", "FStar.Pervasives.Native.tuple2", "Steel.ST.GenElim.Base.gen_elim_prop_elim" ]	[]	false	true	false	false	false	let gen_elim' #opened enable_nondep_opt p a q post _ () =	let i, j = gen_elim_prop_elim enable_nondep_opt p a q post in rewrite p (compute_gen_elim_p i); let res' = compute_gen_elim_nondep_correct i j () _ in let res:Ghost.erased a = Ghost.hide (coerce_with_smt (Ghost.reveal res')) in rewrite (compute_gen_elim_nondep_q i j res') (guard_vprop (q res)); res	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_aux_down64_mem2	val store_buffer_aux_down64_mem2 (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v))	val store_buffer_aux_down64_mem2 (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v))	let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 38, "end_line": 447, "start_col": 0, "start_line": 433 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap{Vale.PPC64LE.Memory.writeable_mem64 ptr h} -> FStar.Pervasives.Lemma (ensures (let h1 = Vale.PPC64LE.Memory.store_mem Vale.Arch.HeapTypes_s.TUInt64 ptr v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in Vale.Arch.MachineHeap_s.get_heap_val64 ptr mem2 == v))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "Prims.b2t", "Vale.PPC64LE.Memory.writeable_mem64", "Vale.PPC64LE.Memory.index64_get_heap_val64", "Prims.unit", "Prims._assert", "Prims.eq2", "Vale.PPC64LE.Memory.base_typ_as_vale_type", "FStar.Seq.Base.index", "Vale.PPC64LE.Memory.buffer_as_seq", "Vale.PPC64LE.Memory.store_buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.store_mem", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapImpl.buffer", "FStar.Pervasives.Native.__proj__Some__item__v", "Vale.PPC64LE.Memory.buffer", "Vale.PPC64LE.Memory.find_writeable_buffer", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt64", "Prims.l_True", "Prims.squash", "Vale.Arch.MachineHeap_s.get_heap_val64", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let store_buffer_aux_down64_mem2 (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) =	let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.in_bounds64	val in_bounds64 (h: vale_heap) (b: buffer64) (i: nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc))	val in_bounds64 (h: vale_heap) (b: buffer64) (i: nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc))	let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 23, "end_line": 452, "start_col": 0, "start_line": 449 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.Arch.HeapImpl.vale_heap -> b: Vale.PPC64LE.Memory.buffer64 -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> FStar.Pervasives.Lemma (ensures Vale.PPC64LE.Memory.scale8 i + 8 <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory.buffer64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint64", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt64", "Prims.unit", "Prims.l_True", "Prims.squash", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale8", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let in_bounds64 (h: vale_heap) (b: buffer64) (i: nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) =	length_t_eq TUInt64 b	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.length_up128	val length_up128 (b: buffer128) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc))	val length_up128 (b: buffer128) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc))	let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 17, "end_line": 508, "start_col": 0, "start_line": 505 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> h: Vale.Arch.HeapImpl.vale_heap -> k: Prims.nat{k < Vale.PPC64LE.Memory.buffer_length b} -> i: Prims.nat{i < 16} -> FStar.Pervasives.Lemma (ensures Vale.PPC64LE.Memory.scale16 k + i <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Vale.Arch.HeapImpl.vale_heap", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint128", "LowStar.BufferView.Up.length_eq", "Vale.Def.Types_s.quad32", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.PPC64LE.Memory.uint128_view", "Prims.unit", "Prims.l_True", "Prims.squash", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale16", "LowStar.BufferView.Down.length", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let length_up128 (b: buffer128) (h: vale_heap) (k: nat{k < buffer_length b}) (i: nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) =	let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb	false
Steel.ST.GenElim.fst	Steel.ST.GenElim.compute_gen_elim_f_exists	val compute_gen_elim_f_exists (a: Type0) (body: (a -> gen_elim_i)) (f: (x: a -> GTot (gen_elim_t (body x)))) : Tot (gen_elim_t (GEExists body))	val compute_gen_elim_f_exists (a: Type0) (body: (a -> gen_elim_i)) (f: (x: a -> GTot (gen_elim_t (body x)))) : Tot (gen_elim_t (GEExists body))	let compute_gen_elim_f_exists (a: Type0) (body: a -> gen_elim_i) (f: (x: a) -> GTot (gen_elim_t (body x))) : Tot (gen_elim_t (GEExists body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExists body)) (exists_ (fun x -> compute_gen_elim_p (body x))); let gres1 = elim_exists () in let gres2 = f gres1 _ in let res : compute_gen_elim_a (GEExists body) = coerce_with_trefl (Mkdtuple2 #a #(fun x -> compute_gen_elim_a (body x)) (Ghost.reveal gres1) (Ghost.reveal gres2)) in rewrite (compute_gen_elim_q (body gres1) gres2) (compute_gen_elim_q (GEExists body) res); res	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 5, "end_line": 136, "start_col": 0, "start_line": 125 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res' let compute_gen_elim_f_star_r (i1: gen_unit_elim_i) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStarR i1 i2)) = let f1 = compute_gen_unit_elim_f i1 in fun _ -> rewrite (compute_gen_elim_p (GEStarR i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_elim_p i2); f1 _; let res = f2 _ in let res' : compute_gen_elim_a (GEStarR i1 i2) = coerce_with_trefl res in rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_elim_q i2 res) (compute_gen_elim_q (GEStarR i1 i2) res'); res' let compute_gen_elim_f_star (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_elim_i) (f2: gen_elim_t i2) : GTot (gen_elim_t (GEStar i1 i2)) = fun _ -> rewrite (compute_gen_elim_p (GEStar i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_elim_p i2); let res1 = f1 _ in let res2 = f2 _ in let res : compute_gen_elim_a (GEStar i1 i2) = coerce_with_trefl (res1, res2) in rewrite (compute_gen_elim_q i1 res1 `star` compute_gen_elim_q i2 res2) (compute_gen_elim_q (GEStar i1 i2) res); res let compute_gen_elim_f_exists_no_abs (a: Type0) (body: (a -> vprop)) : GTot (gen_elim_t (GEExistsNoAbs body)) = fun _ -> rewrite (compute_gen_elim_p (GEExistsNoAbs body)) (exists_ body); let gres = elim_exists () in let res : compute_gen_elim_a (GEExistsNoAbs body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (body gres) (compute_gen_elim_q (GEExistsNoAbs body) res); res let rewrite_with_trefl (#opened:_) (p q:vprop) : STGhost unit opened p (fun _ -> q) (requires T.with_tactic T.trefl (p == q)) (ensures fun _ -> True) = rewrite p q let compute_gen_elim_f_exists_unit (a: Type0) (body: a -> gen_unit_elim_i) : Tot (gen_elim_t (GEExistsUnit body)) = fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExistsUnit body)) (exists_ (fun x -> compute_gen_unit_elim_p (body x))); let gres = elim_exists () in compute_gen_unit_elim_f (body gres) _; let res : compute_gen_elim_a (GEExistsUnit body) = coerce_with_trefl (Ghost.reveal gres) in rewrite (compute_gen_unit_elim_q (body gres)) (compute_gen_elim_q (GEExistsUnit body) res); res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type0 -> body: (_: a -> Steel.ST.GenElim.Base.gen_elim_i) -> f: (x: a -> Prims.GTot (Steel.ST.GenElim.gen_elim_t (body x))) -> Steel.ST.GenElim.gen_elim_t (Steel.ST.GenElim.Base.GEExists body)	Prims.Tot	[ "total" ]	[]	[ "Steel.ST.GenElim.Base.gen_elim_i", "Steel.ST.GenElim.gen_elim_t", "Steel.Memory.inames", "Steel.ST.GenElim.Base.compute_gen_elim_a", "Steel.ST.GenElim.Base.GEExists", "Prims.unit", "Steel.ST.Util.rewrite", "Steel.ST.GenElim.Base.compute_gen_elim_q", "FStar.Ghost.reveal", "Steel.ST.GenElim.Base.coerce_with_trefl", "Prims.dtuple2", "Prims.Mkdtuple2", "FStar.Ghost.hide", "FStar.Ghost.erased", "Steel.ST.Util.elim_exists", "Steel.ST.GenElim.Base.compute_gen_elim_p", "Steel.Effect.Common.vprop", "Steel.ST.GenElim.rewrite_with_trefl", "Steel.ST.Util.exists_" ]	[]	false	false	false	false	false	let compute_gen_elim_f_exists (a: Type0) (body: (a -> gen_elim_i)) (f: (x: a -> GTot (gen_elim_t (body x)))) : Tot (gen_elim_t (GEExists body)) =	fun _ -> rewrite_with_trefl (compute_gen_elim_p (GEExists body)) (exists_ (fun x -> compute_gen_elim_p (body x))); let gres1 = elim_exists () in let gres2 = f gres1 _ in let res:compute_gen_elim_a (GEExists body) = coerce_with_trefl (Mkdtuple2 #a #(fun x -> compute_gen_elim_a (body x)) (Ghost.reveal gres1) (Ghost.reveal gres2)) in rewrite (compute_gen_elim_q (body gres1) gres2) (compute_gen_elim_q (GEExists body) res); res	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_quick_DecryptPrelude	val va_quick_DecryptPrelude (in_b scratch_b: buffer128) : (va_quickCode unit (va_code_DecryptPrelude ()))	val va_quick_DecryptPrelude (in_b scratch_b: buffer128) : (va_quickCode unit (va_code_DecryptPrelude ()))	let va_quick_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (va_QProc (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) (va_wp_DecryptPrelude in_b scratch_b) (va_wpProof_DecryptPrelude in_b scratch_b))	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 85, "end_line": 7845, "start_col": 0, "start_line": 7841 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) #pop-options //-- //-- DecryptPrelude val va_code_DecryptPrelude : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_DecryptPrelude () = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_CNil ()))))))))))))))))))) val va_codegen_success_DecryptPrelude : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_DecryptPrelude () = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_ttrue ())))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_DecryptPrelude (va_mods:va_mods_t) (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2339 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret in_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2340 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret in_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2341 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret in_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2342 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret in_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2344 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2345 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret in_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2346 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2347 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret in_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2348 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2349 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2350 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2351 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2352 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2353 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2354 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2355 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2356 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret scratch_b 7) (va_QEmpty (())))))))))))))))))))) val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))) [@"opaque_to_smt"] let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) ==> va_k va_sM (()))) val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_DecryptPrelude in_b scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_DecryptPrelude (va_code_DecryptPrelude ()) va_s0 in_b scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 30, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	in_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.AES.X64.AESGCM.va_code_DecryptPrelude ())	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Memory.buffer128", "Vale.X64.QuickCode.va_QProc", "Prims.unit", "Vale.AES.X64.AESGCM.va_code_DecryptPrelude", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "Vale.AES.X64.AESGCM.va_wp_DecryptPrelude", "Vale.AES.X64.AESGCM.va_wpProof_DecryptPrelude", "Vale.X64.QuickCode.va_quickCode" ]	[]	false	false	false	false	false	let va_quick_DecryptPrelude (in_b scratch_b: buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) =	(va_QProc (va_code_DecryptPrelude ()) ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem ]) (va_wp_DecryptPrelude in_b scratch_b) (va_wpProof_DecryptPrelude in_b scratch_b))	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_down64_mem	val store_buffer_down64_mem (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale8 i \/ j >= base + scale8 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	val store_buffer_down64_mem (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale8 i \/ j >= base + scale8 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 30, "end_line": 412, "start_col": 0, "start_line": 379 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))} -> FStar.Pervasives.Lemma (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.buffer_write b i v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in let base = Vale.PPC64LE.Memory.buffer_addr b h in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + Vale.PPC64LE.Memory.scale8 i \/ j >= base + Vale.PPC64LE.Memory.scale8 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "FStar.Classical.forall_intro", "Prims.int", "Prims.l_imp", "Prims.l_or", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale8", "Prims.op_GreaterThanOrEqual", "Prims.eq2", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.unit", "Prims.l_True", "Prims.squash", "Vale.PPC64LE.Memory.scale_by", "Vale.Def.Words_s.nat8", "FStar.Map.sel", "Prims.Nil", "FStar.Pervasives.pattern", "Prims.op_AmpAmp", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt64", "Vale.PPC64LE.Memory_Sems.written_buffer_down64", "Prims.bool", "Prims.op_Negation", "Vale.Interop.valid_addr", "Vale.Interop.same_unspecified_down", "Vale.Interop.Heap_s.hs_of_mem", "Vale.PPC64LE.Memory_Sems.unwritten_buffer_down", "Vale.Interop.addrs_set_lemma_all", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.buffer_write", "Prims.l_Forall" ]	[]	false	false	true	false	false	let store_buffer_down64_mem (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale8 i \/ j >= base + scale8 (i + 1) ==> mem1.[ j ] == mem2.[ j ])) =	let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j: int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i + 1) ==> mem1.[ j ] == mem2.[ j ]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then (written_buffer_down64 b i v h; length_t_eq (TUInt64) b) else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.same_mem_eq_slices64	val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8)))	val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8)))	let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 19, "end_line": 226, "start_col": 0, "start_line": 218 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> k: Prims.nat{k < Vale.PPC64LE.Memory.buffer_length b} -> h1: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h1))} -> h2: Vale.Arch.HeapImpl.vale_heap{h2 == Vale.PPC64LE.Memory.buffer_write b i v h1} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h1) mem1 b} -> mem2: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h2) mem2 b} -> FStar.Pervasives.Lemma (requires FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h1 b) k == FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h2 b) k) (ensures k * 8 + 8 <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)) /\ FStar.Seq.Base.slice (LowStar.BufferView.Down.as_seq (Vale.Interop.Heap_s.hs_of_mem (Vale.Arch.HeapImpl._ih h1)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b))) (k * 8) (k * 8 + 8) == FStar.Seq.Base.slice (LowStar.BufferView.Down.as_seq (Vale.Interop.Heap_s.hs_of_mem (Vale.Arch.HeapImpl._ih h2)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b))) (k * 8) (k * 8 + 8))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down_p", "LowStar.BufferView.Up.length_eq", "Vale.Interop.Types.base_typ_as_type", "Prims.unit", "LowStar.BufferView.Up.put_sel", "Vale.Interop.Heap_s.hs_of_mem", "LowStar.BufferView.Up.as_seq_sel", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.PPC64LE.Memory.uint_view", "LowStar.BufferView.Down.buffer", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt64" ]	[]	true	false	true	false	false	let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 =	let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_wpProof_DecryptPrelude	val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_DecryptPrelude in_b scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_DecryptPrelude (va_code_DecryptPrelude ()) va_s0 in_b scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 7838, "start_col": 0, "start_line": 7829 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) #pop-options //-- //-- DecryptPrelude val va_code_DecryptPrelude : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_DecryptPrelude () = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_CNil ()))))))))))))))))))) val va_codegen_success_DecryptPrelude : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_DecryptPrelude () = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_ttrue ())))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_DecryptPrelude (va_mods:va_mods_t) (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2339 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret in_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2340 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret in_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2341 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret in_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2342 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret in_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2344 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2345 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret in_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2346 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2347 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret in_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2348 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2349 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2350 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2351 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2352 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2353 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2354 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2355 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2356 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret scratch_b 7) (va_QEmpty (())))))))))))))))))))) val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))) [@"opaque_to_smt"] let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) ==> va_k va_sM (()))) val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 30, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	in_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.X64.Memory.buffer128", "Vale.X64.Decls.va_state", "Prims.unit", "Vale.X64.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "Prims._assert", "Vale.X64.Decls.va_state_eq", "Vale.X64.Decls.va_update_flags", "Vale.X64.Decls.va_update_mem_heaplet", "Vale.X64.Decls.va_update_xmm", "Vale.X64.Decls.va_update_ok", "Vale.X64.Decls.va_update_mem", "Vale.X64.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.X64.State.vale_state", "Vale.AES.X64.AESGCM.va_lemma_DecryptPrelude", "Vale.AES.X64.AESGCM.va_code_DecryptPrelude" ]	[]	false	false	false	false	false	let va_wpProof_DecryptPrelude in_b scratch_b va_s0 va_k =	let va_sM, va_f0 = va_lemma_DecryptPrelude (va_code_DecryptPrelude ()) va_s0 in_b scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))); va_lemma_norm_mods ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem ]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux2	val written_buffer_down64_aux2 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale8 (i + 1) <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale8 (i + 1) /\ j < base + scale8 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k])	val written_buffer_down64_aux2 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale8 (i + 1) <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale8 (i + 1) /\ j < base + scale8 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k])	let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 7, "end_line": 316, "start_col": 0, "start_line": 292 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))} -> base: Prims.nat{base == Vale.PPC64LE.Memory.buffer_addr b h} -> n: Prims.nat{n == Vale.PPC64LE.Memory.buffer_length b} -> k: Prims.nat{k > i} -> h1: Vale.Arch.HeapImpl.vale_heap{h1 == Vale.PPC64LE.Memory.buffer_write b i v h} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h) mem1} -> mem2: Vale.Arch.MachineHeap_s.machine_heap { Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h1) mem2 /\ (forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base + Vale.PPC64LE.Memory.scale8 (i + 1) <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) } -> FStar.Pervasives.Lemma (ensures forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j >= base + Vale.PPC64LE.Memory.scale8 (i + 1) /\ j < base + Vale.PPC64LE.Memory.scale8 n ==> mem1.[ j ] == mem2.[ j ]) (decreases n - k)	FStar.Pervasives.Lemma	[ "lemma", "" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Prims.op_GreaterThan", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Prims.l_and", "Prims.l_Forall", "Prims.l_imp", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale8", "FStar.Mul.op_Star", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.op_GreaterThanOrEqual", "Prims.bool", "Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux2", "Prims.unit", "Vale.PPC64LE.Memory_Sems.heap_shift", "Vale.PPC64LE.Memory_Sems.same_mem_get_heap_val64", "Prims.l_True", "Prims.squash", "Prims.Nil", "FStar.Pervasives.pattern" ]	[ "recursion" ]	false	false	true	false	false	let rec written_buffer_down64_aux2 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale8 (i + 1) <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale8 (i + 1) /\ j < base + scale8 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k]) =	if k >= n then () else let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k + 1) h1 mem1 mem2	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_wp_Loop6x_loop_decrypt_body0	val va_wp_Loop6x_loop_decrypt_body0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0	val va_wp_Loop6x_loop_decrypt_body0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0	let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur))))	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 67, "end_line": 1917, "start_col": 0, "start_line": 1734 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 700, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_old: Vale.X64.Decls.va_state -> alg: Vale.AES.AES_common_s.algorithm -> va_in_ctr_BE_orig: Vale.X64.Decls.quad32 -> va_in_h_LE: Vale.X64.Decls.quad32 -> va_in_hkeys_b: Vale.X64.Memory.buffer128 -> va_in_in0_b: Vale.X64.Memory.buffer128 -> va_in_in_b: Vale.X64.Memory.buffer128 -> va_in_iv_b: Vale.X64.Memory.buffer128 -> va_in_key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 -> va_in_keys_b: Vale.X64.Memory.buffer128 -> va_in_out_b: Vale.X64.Memory.buffer128 -> va_in_plain_quads: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> va_in_round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> va_in_scratch_b: Vale.X64.Memory.buffer128 -> va_in_y_orig: Vale.X64.Decls.quad32 -> va_in_ctr: Vale.X64.Decls.quad32 -> va_in_iter: Prims.nat -> va_in_y_cur: Vale.X64.Decls.quad32 -> va_s0: Vale.X64.Decls.va_state -> va_k: ( _: Vale.X64.Decls.va_state -> _: ((Vale.X64.Decls.quad32 * Prims.nat) * Vale.X64.Decls.quad32) -> Type0) -> Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_state", "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.quad32", "Vale.X64.Memory.buffer128", "FStar.Seq.Base.seq", "Vale.X64.Memory.nat32", "Prims.nat", "FStar.Pervasives.Native.tuple3", "Prims.l_and", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.CPU_Features_s.sse_enabled", "Vale.X64.CPU_Features_s.movbe_enabled", "Prims.eq2", "Prims.int", "Vale.X64.Decls.va_get_reg64", "Vale.X64.Machine_s.rRdx", "Prims.op_Subtraction", "Prims.op_Multiply", "Vale.X64.Machine_s.rRdi", "Prims.op_Addition", "Vale.X64.Machine_s.rRsi", "Vale.Def.Words_s.four", "Vale.Def.Types_s.nat32", "Vale.X64.Decls.va_get_xmm", "Vale.Def.Words_s.Mkfour", "Vale.X64.Decls.validDstAddrs128", "Vale.X64.Decls.va_get_mem_heaplet", "Vale.X64.Machine_s.rR8", "Vale.X64.Decls.va_get_mem_layout", "Vale.Arch.HeapTypes_s.Public", "Prims.l_imp", "Prims.op_GreaterThan", "Vale.X64.Decls.validSrcAddrsOffset128", "Vale.X64.Machine_s.rR14", "Vale.Arch.HeapTypes_s.Secret", "Vale.X64.Decls.validDstAddrsOffset128", "Vale.X64.Machine_s.rRbp", "Vale.X64.Decls.validSrcAddrs128", "Vale.X64.Machine_s.rR9", "Prims.l_or", "Vale.X64.Decls.buffers_disjoint128", "Prims.op_GreaterThanOrEqual", "FStar.Seq.Base.length", "Vale.X64.Decls.s128", "Vale.AES.GCTR.partial_seq_agreement", "Prims.op_LessThan", "Vale.X64.Machine_s.pow2_64", "Vale.X64.Decls.modifies_buffer_specific128", "Vale.X64.Decls.buffer_modifies_specific128", "Vale.AES.X64.AESopt.aes_reqs_offset", "Vale.X64.Machine_s.rRcx", "FStar.Seq.Base.index", "Vale.X64.CPU_Features_s.pclmulqdq_enabled", "Vale.Def.Types_s.quad32", "Vale.AES.AES_s.aes_encrypt_LE", "Vale.AES.GHash.hkeys_reqs_priv", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.AES.X64.AESopt.scratch_reqs", "Prims.op_LessThanOrEqual", "Vale.AES.GHash.ghash_incremental0", "FStar.Seq.Base.slice", "Vale.Math.Poly2.Bits_s.to_quad32", "Vale.Math.Poly2_s.add", "Vale.Math.Poly2.Bits_s.of_quad32", "Vale.X64.Decls.buffer128_read", "Prims.op_Modulus", "Vale.X64.Machine_s.pow2_32", "Vale.AES.GCTR.inc32lite", "Vale.X64.Machine_s.rRbx", "Vale.Def.Words_s.__proj__Mkfour__item__lo0", "Vale.Def.Types_s.quad32_xor", "Vale.AES.GCTR.gctr_registers", "Vale.AES.GCTR.gctr_partial", "Prims.l_Forall", "Vale.X64.Flags.t", "Vale.X64.InsBasic.vale_heap", "Prims.bool", "Vale.X64.Memory.nat64", "Vale.X64.QuickCodes.precedes_wrap", "Vale.Def.Types_s.nat64", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_upd_xmm", "Vale.X64.Decls.va_upd_reg64", "Vale.X64.Machine_s.rR13", "Vale.X64.Machine_s.rR12", "Vale.X64.Machine_s.rR11", "Vale.X64.Decls.va_upd_ok", "Vale.X64.Decls.va_upd_mem", "Vale.X64.Decls.va_upd_mem_heaplet", "Vale.X64.Decls.va_upd_flags" ]	[]	false	false	false	true	true	let va_wp_Loop6x_loop_decrypt_body0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 =	(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0) < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ (va_get_reg64 rRdx va_s0) `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl: Vale.X64.Flags.t) (va_x_heap2: vale_heap) (va_x_heap3: vale_heap) (va_x_heap6: vale_heap) (va_x_mem: vale_heap) (va_x_ok: bool) (va_x_r11: nat64) (va_x_r12: nat64) (va_x_r13: nat64) (va_x_r14: nat64) (va_x_rbx: nat64) (va_x_rdi: nat64) (va_x_rdx: nat64) (va_x_rsi: nat64) (va_x_xmm0: quad32) (va_x_xmm1: quad32) (va_x_xmm10: quad32) (va_x_xmm11: quad32) (va_x_xmm12: quad32) (va_x_xmm13: quad32) (va_x_xmm14: quad32) (va_x_xmm15: quad32) (va_x_xmm2: quad32) (va_x_xmm3: quad32) (va_x_xmm4: quad32) (va_x_xmm5: quad32) (va_x_xmm6: quad32) (va_x_xmm7: quad32) (va_x_xmm8: quad32) (va_x_xmm9: quad32) (ctr: quad32) (iter: nat) (y_cur: quad32). let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 ( va_upd_ok va_x_ok ( va_upd_mem va_x_mem ( va_upd_mem_heaplet 6 va_x_heap6 ( va_upd_mem_heaplet 3 va_x_heap3 ( va_upd_mem_heaplet 2 va_x_heap2 ( va_upd_flags va_x_efl va_s0 ) ) ) ) ) ) )) )))))))))) ))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM) < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b ) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ (va_get_reg64 rRdx va_sM) `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == (Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur))))	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux1	val written_buffer_down64_aux1 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale8 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k])	val written_buffer_down64_aux1 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale8 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k])	let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 7, "end_line": 290, "start_col": 0, "start_line": 267 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))} -> base: Prims.nat{base == Vale.PPC64LE.Memory.buffer_addr b h} -> k: Prims.nat -> h1: Vale.Arch.HeapImpl.vale_heap{h1 == Vale.PPC64LE.Memory.buffer_write b i v h} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h) mem1} -> mem2: Vale.Arch.MachineHeap_s.machine_heap { Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h1) mem2 /\ (forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) } -> FStar.Pervasives.Lemma (ensures forall (j: Prims.int). {:pattern mem1.[ j ]\/mem1.[ j ]} j >= base /\ j < base + Vale.PPC64LE.Memory.scale8 i ==> mem1.[ j ] == mem2.[ j ]) (decreases i - k)	FStar.Pervasives.Lemma	[ "lemma", "" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Prims.l_and", "Prims.l_Forall", "Prims.l_imp", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "FStar.Mul.op_Star", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.op_GreaterThanOrEqual", "Prims.bool", "Vale.PPC64LE.Memory_Sems.written_buffer_down64_aux1", "Prims.unit", "Vale.PPC64LE.Memory_Sems.heap_shift", "Vale.PPC64LE.Memory_Sems.same_mem_get_heap_val64", "Vale.PPC64LE.Memory.scale8", "Prims.l_True", "Prims.squash", "Prims.Nil", "FStar.Pervasives.pattern" ]	[ "recursion" ]	false	false	true	false	false	let rec written_buffer_down64_aux1 (b: buffer64{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 8 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale8 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k]) =	if k >= i then () else let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k + 1) h1 mem1 mem2	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_aux_down64_mem	val store_buffer_aux_down64_mem (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 8 ==> mem1.[ j ] == mem2.[ j ]))	val store_buffer_aux_down64_mem (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 8 ==> mem1.[ j ] == mem2.[ j ]))	let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 35, "end_line": 431, "start_col": 0, "start_line": 414 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap{Vale.PPC64LE.Memory.writeable_mem64 ptr h} -> FStar.Pervasives.Lemma (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.store_mem Vale.Arch.HeapTypes_s.TUInt64 ptr v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 8 ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "Prims.b2t", "Vale.PPC64LE.Memory.writeable_mem64", "Vale.PPC64LE.Memory_Sems.store_buffer_down64_mem", "Prims.unit", "Prims._assert", "Prims.eq2", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.scale8", "Vale.PPC64LE.Memory.store_buffer_write", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapImpl.buffer", "FStar.Pervasives.Native.__proj__Some__item__v", "Vale.PPC64LE.Memory.buffer", "Vale.PPC64LE.Memory.find_writeable_buffer", "Vale.PPC64LE.Memory.store_mem", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt64", "Prims.l_True", "Prims.squash", "Prims.l_Forall", "Prims.l_imp", "Prims.l_or", "Prims.op_LessThan", "Prims.op_GreaterThanOrEqual", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let store_buffer_aux_down64_mem (ptr: int) (v: nat64) (h: vale_heap{writeable_mem64 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 8 ==> mem1.[ j ] == mem2.[ j ])) =	let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i + 1) == ptr + 8); store_buffer_down64_mem b i v h	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.in_bounds128	val in_bounds128 (h: vale_heap) (b: buffer128) (i: nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc))	val in_bounds128 (h: vale_heap) (b: buffer128) (i: nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc))	let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 24, "end_line": 534, "start_col": 0, "start_line": 531 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.Arch.HeapImpl.vale_heap -> b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> FStar.Pervasives.Lemma (ensures Vale.PPC64LE.Memory.scale16 i + 16 <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt128", "Prims.unit", "Prims.l_True", "Prims.squash", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale16", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let in_bounds128 (h: vale_heap) (b: buffer128) (i: nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) =	length_t_eq TUInt128 b	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_lemma_DecryptPrelude	val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))	val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))	let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "*** POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM)	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 7790, "start_col": 0, "start_line": 7753 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) #pop-options //-- //-- DecryptPrelude val va_code_DecryptPrelude : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_DecryptPrelude () = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_CNil ()))))))))))))))))))) val va_codegen_success_DecryptPrelude : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_DecryptPrelude () = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_ttrue ())))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_DecryptPrelude (va_mods:va_mods_t) (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2339 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret in_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2340 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret in_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2341 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret in_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2342 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret in_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2344 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2345 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret in_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2346 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2347 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret in_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2348 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2349 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2350 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2351 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2352 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2353 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2354 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2355 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2356 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret scratch_b 7) (va_QEmpty (())))))))))))))))))))) val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 30, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.X64.Decls.va_code -> va_s0: Vale.X64.Decls.va_state -> in_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> Prims.Ghost (Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.X64.Decls.va_code", "Vale.X64.Decls.va_state", "Vale.X64.Memory.buffer128", "Vale.X64.QuickCodes.fuel", "Prims.unit", "FStar.Pervasives.Native.Mktuple2", "Vale.X64.Decls.va_fuel", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_ok", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "FStar.Pervasives.assert_norm", "Prims.eq2", "Prims.list", "Vale.X64.QuickCode.__proj__QProc__item__mods", "Vale.AES.X64.AESGCM.va_code_DecryptPrelude", "FStar.Pervasives.Native.tuple2", "FStar.Pervasives.Native.tuple3", "Vale.X64.State.vale_state", "Vale.X64.QuickCodes.va_wp_sound_code_norm", "Prims.l_and", "Vale.X64.QuickCodes.label", "Vale.X64.QuickCodes.va_range1", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.Decls.modifies_buffer_specific128", "Vale.X64.Decls.va_get_mem_heaplet", "Vale.Def.Types_s.quad32", "Vale.X64.Decls.buffer128_read", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.X64.Decls.va_get_xmm", "Vale.X64.QuickCode.quickCode", "Vale.AES.X64.AESGCM.va_qcode_DecryptPrelude" ]	[]	false	false	false	false	false	let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b =	let va_mods:va_mods_t = [ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem ] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let va_sM, va_fM, va_g = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "*** POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem ]) va_sM va_s0; (va_sM, va_fM)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.bytes_valid128	val bytes_valid128 (i:int) (m:vale_heap) : Lemma (requires valid_mem128 i m) (ensures S.valid_addr128 i (get_heap m)) [SMTPat (S.valid_addr128 i (get_heap m))]	val bytes_valid128 (i:int) (m:vale_heap) : Lemma (requires valid_mem128 i m) (ensures S.valid_addr128 i (get_heap m)) [SMTPat (S.valid_addr128 i (get_heap m))]	let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 36, "end_line": 560, "start_col": 0, "start_line": 538 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20"	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	i: Prims.int -> m: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.valid_mem128 i m) (ensures Vale.Arch.MachineHeap_s.valid_addr128 i (Vale.PPC64LE.Memory_Sems.get_heap m)) [SMTPat (Vale.Arch.MachineHeap_s.valid_addr128 i (Vale.PPC64LE.Memory_Sems.get_heap m))]	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.HeapImpl.vale_heap", "Vale.Interop.addrs_set_mem", "Vale.Arch.HeapImpl._ih", "Prims.op_Addition", "Prims.unit", "Vale.PPC64LE.Memory_Sems.in_bounds128", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.HeapImpl.buffer", "Vale.PPC64LE.Memory.get_addr_ptr", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt128", "Vale.Interop.Heap_s.list_disjoint_or_eq_reveal", "FStar.Pervasives.reveal_opaque", "Vale.Arch.MachineHeap_s.machine_heap", "Prims.bool", "Vale.Arch.MachineHeap_s.valid_addr128" ]	[]	true	false	true	false	false	let bytes_valid128 ptr h =	reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr + 1); I.addrs_set_mem (_ih h) b (ptr + 2); I.addrs_set_mem (_ih h) b (ptr + 3); I.addrs_set_mem (_ih h) b (ptr + 4); I.addrs_set_mem (_ih h) b (ptr + 5); I.addrs_set_mem (_ih h) b (ptr + 6); I.addrs_set_mem (_ih h) b (ptr + 7); I.addrs_set_mem (_ih h) b (ptr + 8); I.addrs_set_mem (_ih h) b (ptr + 9); I.addrs_set_mem (_ih h) b (ptr + 10); I.addrs_set_mem (_ih h) b (ptr + 11); I.addrs_set_mem (_ih h) b (ptr + 12); I.addrs_set_mem (_ih h) b (ptr + 13); I.addrs_set_mem (_ih h) b (ptr + 14); I.addrs_set_mem (_ih h) b (ptr + 15)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_valid_mem128	val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) )	val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) )	let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 48, "end_line": 735, "start_col": 0, "start_line": 733 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) )	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b) (ensures Vale.Arch.MachineHeap_s.valid_addr128 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) (Vale.PPC64LE.Memory_Sems.get_heap h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory_Sems.bytes_valid128", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.scale16", "Prims.unit", "Vale.PPC64LE.Memory.lemma_valid_mem128" ]	[]	true	false	true	false	false	let low_lemma_valid_mem128 b i h =	lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem64_full	val low_lemma_load_mem64_full (b:buffer64) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf64 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale8 i in is_full_read vfh.vf_heap h b i /\ // valid_addr64 ptr (heap_get (coerce vfh)) /\ valid_mem64 ptr vfh.vf_heap /\ valid_taint_buf64 b vfh.vf_heap mt t ))	val low_lemma_load_mem64_full (b:buffer64) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf64 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale8 i in is_full_read vfh.vf_heap h b i /\ // valid_addr64 ptr (heap_get (coerce vfh)) /\ valid_mem64 ptr vfh.vf_heap /\ valid_taint_buf64 b vfh.vf_heap mt t ))	let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 638, "start_col": 0, "start_line": 636 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64 -> i: Prims.nat -> vfh: Vale.Arch.HeapImpl.vale_full_heap -> t: Vale.Arch.HeapTypes_s.taint -> hid: Vale.Arch.HeapImpl.heaplet_id -> FStar.Pervasives.Lemma (requires (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.valid_layout_buffer b (Mkvale_full_heap?.vf_layout vfh) h false /\ Vale.PPC64LE.Memory.valid_taint_buf64 b h mt t /\ Vale.PPC64LE.Memory.mem_inv vfh) <: Type0)) (ensures (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in let ptr = Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale8 i in Vale.PPC64LE.Memory_Sems.is_full_read (Mkvale_full_heap?.vf_heap vfh) h b i /\ Vale.PPC64LE.Memory.valid_mem64 ptr (Mkvale_full_heap?.vf_heap vfh) /\ Vale.PPC64LE.Memory.valid_taint_buf64 b (Mkvale_full_heap?.vf_heap vfh) mt t) <: Type0))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Prims.nat", "Vale.Arch.HeapImpl.vale_full_heap", "Vale.Arch.HeapTypes_s.taint", "Vale.Arch.HeapImpl.heaplet_id", "Prims.unit", "FStar.Pervasives.reveal_opaque", "Vale.Arch.HeapTypes_s.base_typ", "Vale.PPC64LE.Memory.buffer", "Vale.Arch.HeapImpl.vale_heap_layout", "FStar.Pervasives.Native.option", "Prims.bool", "Vale.Def.Prop_s.prop0", "Vale.PPC64LE.Memory.valid_layout_buffer_id" ]	[]	true	false	true	false	false	let low_lemma_load_mem64_full b i vfh t hid =	reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	false
Steel.ST.GenElim.fst	Steel.ST.GenElim.compute_gen_elim_f_star_l	val compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2))	val compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2))	let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) = let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) (compute_gen_elim_p i1 `star` compute_gen_unit_elim_p i2); let res = f1 _ in f2 _; let res' : compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite (compute_gen_elim_q i1 res `star` compute_gen_unit_elim_q i2) (compute_gen_elim_q (GEStarL i1 i2) res'); res'	{ "file_name": "lib/steel/Steel.ST.GenElim.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 6, "end_line": 64, "start_col": 0, "start_line": 52 }	module Steel.ST.GenElim let gen_elim_f (p: vprop) (a: Type0) // FIXME: generalize this universe (q: (a -> vprop)) (post: (a -> prop)) : Tot Type = ((opened: inames) -> STGhost a opened p q True post) let gen_unit_elim_t (i: gen_unit_elim_i) : Tot Type = gen_elim_f (compute_gen_unit_elim_p i) unit (fun _ -> compute_gen_unit_elim_q i) (fun _ -> compute_gen_unit_elim_post i) let compute_gen_unit_elim_f_id (v: vprop) : Tot (gen_unit_elim_t (GUEId v)) = fun _ -> noop () let compute_gen_unit_elim_f_pure (p: prop) : Tot (gen_unit_elim_t (GUEPure p)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEPure p)) (pure p); elim_pure p let compute_gen_unit_elim_f_star (i1 i2: gen_unit_elim_i) (f1: gen_unit_elim_t i1) (f2: gen_unit_elim_t i2) : Tot (gen_unit_elim_t (GUEStar i1 i2)) = fun _ -> rewrite (compute_gen_unit_elim_p (GUEStar i1 i2)) (compute_gen_unit_elim_p i1 `star` compute_gen_unit_elim_p i2); f1 _; f2 _; rewrite (compute_gen_unit_elim_q i1 `star` compute_gen_unit_elim_q i2) (compute_gen_unit_elim_q (GUEStar i1 i2)) let rec compute_gen_unit_elim_f (i: gen_unit_elim_i) : GTot (gen_unit_elim_t i) = match i returns (gen_unit_elim_t i) with \| GUEId v -> compute_gen_unit_elim_f_id v \| GUEPure p -> compute_gen_unit_elim_f_pure p \| GUEStar i1 i2 -> compute_gen_unit_elim_f_star i1 i2 (compute_gen_unit_elim_f i1) (compute_gen_unit_elim_f i2) let gen_elim_t (i: gen_elim_i) : Tot Type = gen_elim_f (compute_gen_elim_p i) (compute_gen_elim_a i) (compute_gen_elim_q i) (compute_gen_elim_post i) let compute_gen_elim_f_unit (i: gen_unit_elim_i) : GTot (gen_elim_t (GEUnit i)) = compute_gen_unit_elim_f i	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Steel.ST.GenElim.fst" }	[ { "abbrev": true, "full_module": "FStar.Tactics", "short_module": "T" }, { "abbrev": false, "full_module": "Steel.ST.GenElim.Base", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "Steel.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	i1: Steel.ST.GenElim.Base.gen_elim_i -> f1: Steel.ST.GenElim.gen_elim_t i1 -> i2: Steel.ST.GenElim.Base.gen_unit_elim_i -> Prims.GTot (Steel.ST.GenElim.gen_elim_t (Steel.ST.GenElim.Base.GEStarL i1 i2))	Prims.GTot	[ "sometrivial" ]	[]	[ "Steel.ST.GenElim.Base.gen_elim_i", "Steel.ST.GenElim.gen_elim_t", "Steel.ST.GenElim.Base.gen_unit_elim_i", "Steel.Memory.inames", "Steel.ST.GenElim.Base.compute_gen_elim_a", "Steel.ST.GenElim.Base.GEStarL", "Prims.unit", "Steel.ST.Util.rewrite", "Steel.Effect.Common.star", "Steel.ST.GenElim.Base.compute_gen_elim_q", "Steel.ST.GenElim.Base.compute_gen_unit_elim_q", "Steel.ST.GenElim.Base.coerce_with_trefl", "Steel.ST.GenElim.Base.compute_gen_elim_p", "Steel.ST.GenElim.Base.compute_gen_unit_elim_p", "Steel.ST.GenElim.gen_unit_elim_t", "Steel.ST.GenElim.compute_gen_unit_elim_f" ]	[]	false	false	false	false	false	let compute_gen_elim_f_star_l (i1: gen_elim_i) (f1: gen_elim_t i1) (i2: gen_unit_elim_i) : GTot (gen_elim_t (GEStarL i1 i2)) =	let f2 = compute_gen_unit_elim_f i2 in fun _ -> rewrite (compute_gen_elim_p (GEStarL i1 i2)) ((compute_gen_elim_p i1) `star` (compute_gen_unit_elim_p i2)); let res = f1 _ in f2 _; let res':compute_gen_elim_a (GEStarL i1 i2) = coerce_with_trefl res in rewrite ((compute_gen_elim_q i1 res) `star` (compute_gen_unit_elim_q i2)) (compute_gen_elim_q (GEStarL i1 i2) res'); res'	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_wp_Loop6x_loop_decrypt_while0	val va_wp_Loop6x_loop_decrypt_while0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0	val va_wp_Loop6x_loop_decrypt_while0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0	let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur))))	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 32, "end_line": 2664, "start_col": 0, "start_line": 2481 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 700, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_old: Vale.X64.Decls.va_state -> alg: Vale.AES.AES_common_s.algorithm -> va_in_ctr_BE_orig: Vale.X64.Decls.quad32 -> va_in_h_LE: Vale.X64.Decls.quad32 -> va_in_hkeys_b: Vale.X64.Memory.buffer128 -> va_in_in0_b: Vale.X64.Memory.buffer128 -> va_in_in_b: Vale.X64.Memory.buffer128 -> va_in_iv_b: Vale.X64.Memory.buffer128 -> va_in_key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 -> va_in_keys_b: Vale.X64.Memory.buffer128 -> va_in_out_b: Vale.X64.Memory.buffer128 -> va_in_plain_quads: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> va_in_round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> va_in_scratch_b: Vale.X64.Memory.buffer128 -> va_in_y_orig: Vale.X64.Decls.quad32 -> va_in_ctr: Vale.X64.Decls.quad32 -> va_in_iter: Prims.nat -> va_in_y_cur: Vale.X64.Decls.quad32 -> va_s0: Vale.X64.Decls.va_state -> va_k: ( _: Vale.X64.Decls.va_state -> _: ((Vale.X64.Decls.quad32 * Prims.nat) * Vale.X64.Decls.quad32) -> Type0) -> Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_state", "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.quad32", "Vale.X64.Memory.buffer128", "FStar.Seq.Base.seq", "Vale.X64.Memory.nat32", "Prims.nat", "FStar.Pervasives.Native.tuple3", "Prims.l_and", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.CPU_Features_s.sse_enabled", "Vale.X64.CPU_Features_s.movbe_enabled", "Prims.eq2", "Prims.int", "Vale.X64.Decls.va_get_reg64", "Vale.X64.Machine_s.rRdx", "Prims.op_Subtraction", "Prims.op_Multiply", "Vale.X64.Machine_s.rRdi", "Prims.op_Addition", "Vale.X64.Machine_s.rRsi", "Vale.Def.Words_s.four", "Vale.Def.Types_s.nat32", "Vale.X64.Decls.va_get_xmm", "Vale.Def.Words_s.Mkfour", "Vale.X64.Decls.validDstAddrs128", "Vale.X64.Decls.va_get_mem_heaplet", "Vale.X64.Machine_s.rR8", "Vale.X64.Decls.va_get_mem_layout", "Vale.Arch.HeapTypes_s.Public", "Prims.l_imp", "Prims.op_GreaterThan", "Vale.X64.Decls.validSrcAddrsOffset128", "Vale.X64.Machine_s.rR14", "Vale.Arch.HeapTypes_s.Secret", "Vale.X64.Decls.validDstAddrsOffset128", "Vale.X64.Machine_s.rRbp", "Vale.X64.Decls.validSrcAddrs128", "Vale.X64.Machine_s.rR9", "Prims.l_or", "Vale.X64.Decls.buffers_disjoint128", "Prims.op_GreaterThanOrEqual", "FStar.Seq.Base.length", "Vale.X64.Decls.s128", "Vale.AES.GCTR.partial_seq_agreement", "Prims.op_LessThan", "Vale.X64.Machine_s.pow2_64", "Vale.X64.Decls.modifies_buffer_specific128", "Vale.X64.Decls.buffer_modifies_specific128", "Vale.AES.X64.AESopt.aes_reqs_offset", "Vale.X64.Machine_s.rRcx", "FStar.Seq.Base.index", "Vale.X64.CPU_Features_s.pclmulqdq_enabled", "Vale.Def.Types_s.quad32", "Vale.AES.AES_s.aes_encrypt_LE", "Vale.AES.GHash.hkeys_reqs_priv", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.AES.X64.AESopt.scratch_reqs", "Prims.op_LessThanOrEqual", "Vale.AES.GHash.ghash_incremental0", "FStar.Seq.Base.slice", "Vale.Math.Poly2.Bits_s.to_quad32", "Vale.Math.Poly2_s.add", "Vale.Math.Poly2.Bits_s.of_quad32", "Vale.X64.Decls.buffer128_read", "Prims.op_Modulus", "Vale.X64.Machine_s.pow2_32", "Vale.AES.GCTR.inc32lite", "Vale.X64.Machine_s.rRbx", "Vale.Def.Words_s.__proj__Mkfour__item__lo0", "Vale.Def.Types_s.quad32_xor", "Vale.AES.GCTR.gctr_registers", "Vale.AES.GCTR.gctr_partial", "Prims.l_Forall", "Vale.X64.Flags.t", "Vale.X64.InsBasic.vale_heap", "Prims.bool", "Vale.X64.Memory.nat64", "Prims.l_not", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_upd_xmm", "Vale.X64.Decls.va_upd_reg64", "Vale.X64.Machine_s.rR13", "Vale.X64.Machine_s.rR12", "Vale.X64.Machine_s.rR11", "Vale.X64.Decls.va_upd_ok", "Vale.X64.Decls.va_upd_mem", "Vale.X64.Decls.va_upd_mem_heaplet", "Vale.X64.Decls.va_upd_flags" ]	[]	false	false	false	true	true	let va_wp_Loop6x_loop_decrypt_while0 (va_old: va_state) (alg: algorithm) (va_in_ctr_BE_orig va_in_h_LE: quad32) (va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b: buffer128) (va_in_key_words: (seq nat32)) (va_in_keys_b va_in_out_b: buffer128) (va_in_plain_quads va_in_round_keys: (seq quad32)) (va_in_scratch_b: buffer128) (va_in_y_orig va_in_ctr: quad32) (va_in_iter: nat) (va_in_y_cur: quad32) (va_s0: va_state) (va_k: (va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 =	(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0) < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ (va_get_reg64 rRdx va_s0) `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl: Vale.X64.Flags.t) (va_x_heap2: vale_heap) (va_x_heap3: vale_heap) (va_x_heap6: vale_heap) (va_x_mem: vale_heap) (va_x_ok: bool) (va_x_r11: nat64) (va_x_r12: nat64) (va_x_r13: nat64) (va_x_r14: nat64) (va_x_rbx: nat64) (va_x_rdi: nat64) (va_x_rdx: nat64) (va_x_rsi: nat64) (va_x_xmm0: quad32) (va_x_xmm1: quad32) (va_x_xmm10: quad32) (va_x_xmm11: quad32) (va_x_xmm12: quad32) (va_x_xmm13: quad32) (va_x_xmm14: quad32) (va_x_xmm15: quad32) (va_x_xmm2: quad32) (va_x_xmm3: quad32) (va_x_xmm4: quad32) (va_x_xmm5: quad32) (va_x_xmm6: quad32) (va_x_xmm7: quad32) (va_x_xmm8: quad32) (va_x_xmm9: quad32) (ctr: quad32) (iter: nat) (y_cur: quad32). let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 ( va_upd_ok va_x_ok ( va_upd_mem va_x_mem ( va_upd_mem_heaplet 6 va_x_heap6 ( va_upd_mem_heaplet 3 va_x_heap3 ( va_upd_mem_heaplet 2 va_x_heap2 ( va_upd_flags va_x_efl va_s0 ) ) ) ) ) ) )) )))))))))) ))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM) < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b ) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ (va_get_reg64 rRdx va_sM) `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == (Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur))))	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.equiv_load_mem64	val equiv_load_mem64 (ptr:int) (m:vale_heap) : Lemma (requires valid_mem64 ptr m) (ensures load_mem64 ptr m == S.get_heap_val64 ptr (get_heap m))	val equiv_load_mem64 (ptr:int) (m:vale_heap) : Lemma (requires valid_mem64 ptr m) (ensures load_mem64 ptr m == S.get_heap_val64 ptr (get_heap m))	let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 24, "end_line": 571, "start_col": 0, "start_line": 563 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> m: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.valid_mem64 ptr m) (ensures Vale.PPC64LE.Memory.load_mem64 ptr m == Vale.Arch.MachineHeap_s.get_heap_val64 ptr (Vale.PPC64LE.Memory_Sems.get_heap m))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory.lemma_load_mem64", "Prims.unit", "Vale.PPC64LE.Memory.index64_get_heap_val64", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.PPC64LE.Memory_Sems.same_domain", "Vale.PPC64LE.Memory_Sems.get_heap", "FStar.Seq.Properties.lseq", "FStar.UInt8.t", "LowStar.BufferView.Down.length", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "LowStar.BufferView.Down.as_seq", "Vale.Interop.Heap_s.__proj__InteropHeap__item__hs", "Vale.Arch.HeapImpl._ih", "Vale.PPC64LE.Memory.buffer_addr", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.Arch.HeapImpl.buffer", "Vale.PPC64LE.Memory.get_addr_ptr", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt64" ]	[]	true	false	true	false	false	let equiv_load_mem64 ptr h =	let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_Pclmulqdq	val va_codegen_success_Pclmulqdq : dst:va_operand_xmm -> src:va_operand_xmm -> dstHi:bool -> srcHi:bool -> Tot va_pbool	val va_codegen_success_Pclmulqdq : dst:va_operand_xmm -> src:va_operand_xmm -> dstHi:bool -> srcHi:bool -> Tot va_pbool	let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 26, "start_col": 0, "start_line": 25 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> dstHi: Prims.bool -> srcHi: Prims.bool -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Prims.bool", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Pclmulqdq dst src dstHi srcHi =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_store_mem64	val low_lemma_store_mem64 (b:buffer64) (i:nat) (v:nat64) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b ) (ensures ( let m = S.update_heap64 (buffer_addr b h + scale8 i) v (get_heap h) in is_machine_heap_update (get_heap h) m /\ upd_heap h m == buffer_write b i v h ))	val low_lemma_store_mem64 (b:buffer64) (i:nat) (v:nat64) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b ) (ensures ( let m = S.update_heap64 (buffer_addr b h + scale8 i) v (get_heap h) in is_machine_heap_update (get_heap h) m /\ upd_heap h m == buffer_write b i v h ))	let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap'	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 45, "end_line": 652, "start_col": 0, "start_line": 642 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20"	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64 -> i: Prims.nat -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.buffer_writeable b) (ensures (let m = Vale.Arch.MachineHeap_s.update_heap64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale8 i) v (Vale.PPC64LE.Memory_Sems.get_heap h) in Vale.Arch.MachineHeap_s.is_machine_heap_update (Vale.PPC64LE.Memory_Sems.get_heap h) m /\ Vale.PPC64LE.Memory_Sems.upd_heap h m == Vale.PPC64LE.Memory.buffer_write b i v h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Prims.nat", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "Vale.Interop.update_buffer_up_mem", "Vale.Arch.HeapImpl._ih", "Prims.unit", "Vale.Interop.addrs_set_lemma_all", "Vale.PPC64LE.Memory_Sems.in_bounds64", "Vale.Arch.MachineHeap.frame_update_heap64", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.vuint64", "Vale.PPC64LE.Memory.scale8", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem64_aux", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Arch.MachineHeap_s.update_heap64", "Vale.PPC64LE.Memory_Sems.same_domain", "Vale.PPC64LE.Memory_Sems.get_heap", "Vale.PPC64LE.Memory_Sems.valid_state_store_mem64_aux", "Vale.PPC64LE.Memory.lemma_store_mem64", "Vale.PPC64LE.Memory.lemma_writeable_mem64" ]	[]	true	false	true	false	false	let low_lemma_store_mem64 b i v h =	lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap'	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_code_AES_GCM_decrypt_6mult	val va_code_AES_GCM_decrypt_6mult : alg:algorithm -> Tot va_code	val va_code_AES_GCM_decrypt_6mult : alg:algorithm -> Tot va_code	let va_code_AES_GCM_decrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_DecryptPrelude ()) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop_decrypt alg) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ()))))))))))))))))))))))) (va_CNil ())))	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 53, "end_line": 7876, "start_col": 0, "start_line": 7851 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) #pop-options //-- //-- DecryptPrelude val va_code_DecryptPrelude : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_DecryptPrelude () = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_CNil ()))))))))))))))))))) val va_codegen_success_DecryptPrelude : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_DecryptPrelude () = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_ttrue ())))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_DecryptPrelude (va_mods:va_mods_t) (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2339 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret in_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2340 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret in_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2341 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret in_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2342 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret in_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2344 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2345 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret in_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2346 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2347 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret in_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2348 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2349 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2350 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2351 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2352 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2353 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2354 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2355 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2356 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret scratch_b 7) (va_QEmpty (())))))))))))))))))))) val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))) [@"opaque_to_smt"] let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) ==> va_k va_sM (()))) val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_DecryptPrelude in_b scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_DecryptPrelude (va_code_DecryptPrelude ()) va_s0 in_b scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (va_QProc (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) (va_wp_DecryptPrelude in_b scratch_b) (va_wpProof_DecryptPrelude in_b scratch_b)) //-- //-- AES_GCM_decrypt_6mult #push-options "--z3rlimit 100"	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	alg: Vale.AES.AES_common_s.algorithm -> Vale.X64.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.va_Block", "Vale.X64.Decls.va_CCons", "Vale.X64.Decls.va_IfElse", "Vale.X64.Decls.va_cmp_eq", "Vale.X64.Decls.va_op_cmp_reg64", "Vale.X64.Machine_s.rRdx", "Vale.X64.Decls.va_const_cmp", "Vale.X64.InsVector.va_code_VPshufb", "Vale.X64.Decls.va_op_xmm_xmm", "Vale.X64.InsVector.va_code_Store128_buffer", "Vale.X64.Decls.va_op_heaplet_mem_heaplet", "Vale.X64.Decls.va_op_reg_opr64_reg64", "Vale.X64.Machine_s.rRbp", "Vale.Arch.HeapTypes_s.Secret", "Vale.X64.Decls.va_CNil", "Vale.X64.InsBasic.va_code_Add64", "Vale.X64.Decls.va_op_dst_opr64_reg64", "Vale.X64.Machine_s.rRcx", "Vale.X64.Decls.va_const_opr64", "Vale.X64.InsVector.va_code_Pextrq", "Vale.X64.Machine_s.rRbx", "Vale.X64.InsBasic.va_code_And64", "Vale.X64.InsBasic.va_code_AddLea64", "Vale.X64.Machine_s.rR14", "Vale.X64.Decls.va_op_opr64_reg64", "Vale.X64.Machine_s.rRdi", "Vale.X64.InsVector.va_code_Load128_buffer", "Vale.AES.X64.AESGCM.va_code_DecryptPrelude", "Vale.AES.X64.AESGCM.va_code_Ctr32_ghash_6_prelude", "Vale.AES.X64.AESGCM.va_code_Loop6x_loop_decrypt", "Vale.X64.Machine_s.rRsi", "Prims.op_Subtraction", "Vale.X64.InsBasic.va_code_Sub64", "Vale.X64.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_AES_GCM_decrypt_6mult alg =	(va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_DecryptPrelude ()) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop_decrypt alg) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi ) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13 ) (0 - 32) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil () )) (va_CCons (va_code_Sub64 ( va_op_dst_opr64_reg64 rRcx ) ( va_const_opr64 128 ) ) (va_CNil () )) )))))))))))) ))))))))) (va_CNil ())))	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.valid_state_store_mem64_aux	val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') ))	val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') ))	let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 634, "start_col": 0, "start_line": 618 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') ))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	i: Prims.nat -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.writeable_mem64 i h) (ensures (let heap = Vale.PPC64LE.Memory_Sems.get_heap h in let heap' = Vale.Arch.MachineHeap_s.update_heap64 i v heap in let h' = Vale.PPC64LE.Memory.store_mem64 i v h in heap' == Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h')))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.nat", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.Map.lemma_equal_intro", "Prims.int", "Vale.Def.Types_s.nat8", "Prims.unit", "Prims.l_True", "Prims.squash", "FStar.Set.equal", "FStar.Map.domain", "Vale.Def.Words_s.nat8", "Prims.Nil", "FStar.Pervasives.pattern", "Vale.Arch.MachineHeap.same_domain_update64", "Vale.PPC64LE.Memory_Sems.bytes_valid64", "Prims.l_Forall", "Prims.eq2", "FStar.Map.sel", "Vale.Arch.MachineHeap.frame_update_heap64", "Vale.Arch.MachineHeap.correct_update_get64", "Vale.Arch.MachineHeap.same_mem_get_heap_val64", "Vale.PPC64LE.Memory.op_String_Access", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory_Sems.store_buffer_aux_down64_mem2", "Vale.PPC64LE.Memory_Sems.store_buffer_aux_down64_mem", "Vale.PPC64LE.Memory.store_mem", "Vale.Arch.HeapTypes_s.TUInt64", "Vale.Arch.MachineHeap_s.update_heap64", "Vale.PPC64LE.Memory_Sems.same_domain", "Vale.PPC64LE.Memory_Sems.get_heap" ]	[]	false	false	true	false	false	let valid_state_store_mem64_aux i v h =	let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[ j ] == mem2.[ j ]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.same_mem_eq_slices128	val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16)))	val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16)))	let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 19, "end_line": 503, "start_col": 0, "start_line": 495 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> k: Prims.nat{k < Vale.PPC64LE.Memory.buffer_length b} -> h1: Vale.Arch.HeapImpl.vale_heap { FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h1)) /\ Vale.PPC64LE.Memory.buffer_writeable b } -> h2: Vale.Arch.HeapImpl.vale_heap{h2 == Vale.PPC64LE.Memory.buffer_write b i v h1} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h1) mem1 b} -> mem2: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h2) mem2 b} -> FStar.Pervasives.Lemma (requires FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h1 b) k == FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h2 b) k) (ensures k * 16 + 16 <= LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc b)) /\ FStar.Seq.Base.slice (LowStar.BufferView.Down.as_seq (Vale.Interop.Heap_s.hs_of_mem (Vale.Arch.HeapImpl._ih h1)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b))) (k * 16) (k * 16 + 16) == FStar.Seq.Base.slice (LowStar.BufferView.Down.as_seq (Vale.Interop.Heap_s.hs_of_mem (Vale.Arch.HeapImpl._ih h2)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b))) (k * 16) (k * 16 + 16))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Prims.l_and", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "Vale.PPC64LE.Memory.buffer_writeable", "Prims.eq2", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down_p", "LowStar.BufferView.Up.length_eq", "Vale.Interop.Types.base_typ_as_type", "Prims.unit", "LowStar.BufferView.Up.put_sel", "Vale.Interop.Heap_s.hs_of_mem", "LowStar.BufferView.Up.as_seq_sel", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.PPC64LE.Memory.uint_view", "LowStar.BufferView.Down.buffer", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt128" ]	[]	true	false	true	false	false	let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 =	let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.lemma_make_owns	val lemma_make_owns (h: vale_heap) (bs: Seq.seq buffer_info) (n: nat) : Lemma (requires n <= Seq.length bs /\ (forall (i: nat). {:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1: nat) (i2: nat). {:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2))) (ensures (let m, s = make_owns h bs n in (forall (i: heaplet_id) (a: int). {:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh))) /\ (forall (k: nat) (a: int). {:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet))))	val lemma_make_owns (h: vale_heap) (bs: Seq.seq buffer_info) (n: nat) : Lemma (requires n <= Seq.length bs /\ (forall (i: nat). {:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1: nat) (i2: nat). {:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2))) (ensures (let m, s = make_owns h bs n in (forall (i: heaplet_id) (a: int). {:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh))) /\ (forall (k: nat) (a: int). {:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet))))	let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 124, "start_col": 0, "start_line": 81 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.Arch.HeapImpl.vale_heap -> bs: FStar.Seq.Base.seq Vale.Arch.HeapImpl.buffer_info -> n: Prims.nat -> FStar.Pervasives.Lemma (requires n <= FStar.Seq.Base.length bs /\ (forall (i: Prims.nat). {:pattern FStar.Seq.Base.index bs i} i < FStar.Seq.Base.length bs ==> Vale.PPC64LE.Memory.buffer_readable h (Mkbuffer_info?.bi_buffer (FStar.Seq.Base.index bs i))) /\ (forall (i1: Prims.nat) (i2: Prims.nat). {:pattern FStar.Seq.Base.index bs i1; FStar.Seq.Base.index bs i2} i1 < FStar.Seq.Base.length bs /\ i2 < FStar.Seq.Base.length bs ==> Vale.PPC64LE.Memory.buffer_info_disjoint (FStar.Seq.Base.index bs i1) (FStar.Seq.Base.index bs i2))) (ensures (let _ = Vale.PPC64LE.Memory_Sems.make_owns h bs n in (let FStar.Pervasives.Native.Mktuple2 #_ #_ m s = _ in (forall (i: Vale.Arch.HeapImpl.heaplet_id) (a: Prims.int). {:pattern FStar.Set.mem a (s i)} (FStar.Set.mem a (s i) <==> FStar.Option.mapTot (fun n -> Mkbuffer_info?.bi_heaplet (FStar.Seq.Base.index bs n)) (m a) == FStar.Pervasives.Native.Some i) /\ (FStar.Set.mem a (s i) ==> Vale.PPC64LE.Memory_Sems.buffer_info_has_addr_opt (FStar.Option.mapTot (fun n -> FStar.Seq.Base.index bs n) (m a)) a) /\ (FStar.Set.mem a (s i) ==> FStar.Set.mem a (FStar.Map.domain (ValeHeap?.mh h)))) /\ (forall (k: Prims.nat) (a: Prims.int). {:pattern FStar.Set.mem a (s (Mkbuffer_info?.bi_heaplet (FStar.Seq.Base.index bs k)))} k < n /\ Vale.PPC64LE.Memory_Sems.buffer_info_has_addr (FStar.Seq.Base.index bs k) a ==> FStar.Set.mem a (s (Mkbuffer_info?.bi_heaplet (FStar.Seq.Base.index bs k))))) <: Type0))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.Arch.HeapImpl.vale_heap", "FStar.Seq.Base.seq", "Vale.Arch.HeapImpl.buffer_info", "Prims.nat", "Prims.op_Equality", "Prims.int", "Prims.bool", "FStar.Pervasives.Native.option", "Prims.b2t", "Prims.op_LessThan", "FStar.Seq.Base.length", "Vale.Arch.HeapImpl.heaplet_id", "FStar.Set.set", "Prims.unit", "Prims.l_and", "Prims.l_not", "Prims.eq2", "FStar.Set.mem", "FStar.Set.intersect", "Prims.squash", "Prims.l_False", "Prims.Cons", "FStar.Pervasives.pattern", "FStar.Pervasives.smt_pat", "Prims.Nil", "FStar.Pervasives.reveal_opaque", "Vale.Interop.Types.b8", "Vale.Def.Words_s.nat64", "Prims.logical", "Vale.Interop.Types.addr_map_pred", "FStar.Map.domain", "Vale.Def.Words_s.nat8", "Vale.Arch.HeapImpl.__proj__ValeHeap__item__mh", "Vale.Interop.addrs_set_mem", "FStar.Ghost.reveal", "Vale.Interop.Heap_s.interop_heap", "Vale.Arch.HeapImpl.__proj__ValeHeap__item__ih", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory_Sems.set_of_range", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.Interop.Heap_s.global_addrs_map", "Vale.Arch.HeapImpl.__proj__Mkbuffer_info__item__bi_heaplet", "Vale.Arch.HeapImpl.buffer", "Vale.Arch.HeapImpl.__proj__Mkbuffer_info__item__bi_typ", "Vale.Arch.HeapImpl.__proj__Mkbuffer_info__item__bi_buffer", "FStar.Seq.Base.index", "Prims.op_Subtraction", "Vale.PPC64LE.Memory_Sems.lemma_make_owns", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Memory_Sems.make_owns", "Prims.op_LessThanOrEqual", "Prims.l_Forall", "Prims.l_imp", "Vale.PPC64LE.Memory.buffer_readable", "Vale.PPC64LE.Memory.buffer_info_disjoint", "Prims.l_iff", "FStar.Option.mapTot", "FStar.Pervasives.Native.Some", "Vale.PPC64LE.Memory_Sems.buffer_info_has_addr_opt", "Vale.PPC64LE.Memory_Sems.buffer_info_has_addr" ]	[ "recursion" ]	false	false	true	false	false	let rec lemma_make_owns (h: vale_heap) (bs: Seq.seq buffer_info) (n: nat) : Lemma (requires n <= Seq.length bs /\ (forall (i: nat). {:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1: nat) (i2: nat). {:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2))) (ensures (let m, s = make_owns h bs n in (forall (i: heaplet_id) (a: int). {:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh))) /\ (forall (k: nat) (a: int). {:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)))) =	reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let m, s = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a: int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i: heaplet_id) (a: int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in ()	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_wpProof_AES_GCM_encrypt_6mult	val va_wpProof_AES_GCM_encrypt_6mult : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AES_GCM_encrypt_6mult alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_AES_GCM_encrypt_6mult : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AES_GCM_encrypt_6mult alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 7613, "start_col": 0, "start_line": 7591 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": true, "z3rlimit": 40000, "z3rlimit_factor": 1, "z3seed": 7, "z3smtopt": [], "z3version": "4.8.5" }	false	alg: Vale.AES.AES_common_s.algorithm -> h_LE: Vale.X64.Decls.quad32 -> iv_b: Vale.X64.Memory.buffer128 -> in_b: Vale.X64.Memory.buffer128 -> out_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 -> round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> keys_b: Vale.X64.Memory.buffer128 -> hkeys_b: Vale.X64.Memory.buffer128 -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.quad32", "Vale.X64.Memory.buffer128", "FStar.Seq.Base.seq", "Vale.X64.Memory.nat32", "Vale.X64.Decls.va_state", "Prims.unit", "Vale.X64.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_reg64", "Vale.X64.Machine_s.rR14", "Vale.X64.Machine_s.rR13", "Vale.X64.Machine_s.rR12", "Vale.X64.Machine_s.rR11", "Vale.X64.Machine_s.rRbx", "Vale.X64.Machine_s.rRcx", "Vale.X64.Machine_s.rRdx", "Vale.X64.Machine_s.rRsi", "Vale.X64.Machine_s.rRdi", "Vale.X64.Machine_s.rRax", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "Prims._assert", "Vale.X64.Decls.va_state_eq", "Vale.X64.Decls.va_update_flags", "Vale.X64.Decls.va_update_mem_heaplet", "Vale.X64.Decls.va_update_xmm", "Vale.X64.Decls.va_update_reg64", "Vale.X64.Decls.va_update_ok", "Vale.X64.Decls.va_update_mem", "Vale.X64.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.X64.State.vale_state", "Vale.AES.X64.AESGCM.va_lemma_AES_GCM_encrypt_6mult", "Vale.AES.X64.AESGCM.va_code_AES_GCM_encrypt_6mult" ]	[]	false	false	false	false	false	let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k =	let va_sM, va_f0 = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM ( va_update_reg64 rRbx va_sM ( va_update_reg64 rRcx va_sM ( va_update_reg64 rRdx va_sM ( va_update_reg64 rRsi va_sM ( va_update_reg64 rRdi va_sM ( va_update_reg64 rRax va_sM ( va_update_ok va_sM ( va_update_mem va_sM va_s0 ) ) ) ) ) ) ) ) )) )))))))))) ))))))))))))); va_lemma_norm_mods ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem ]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_VPclmulqdq	val va_codegen_success_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> Tot va_pbool	val va_codegen_success_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> Tot va_pbool	let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 60, "start_col": 0, "start_line": 59 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> src1Hi: Prims.bool -> src2Hi: Prims.bool -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Prims.bool", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.unwritten_buffer_down	val unwritten_buffer_down (t: base_typ) (b: buffer t {buffer_writeable b}) (i: nat{i < buffer_length b}) (v: base_typ_as_vale_type t) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a: b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))\/mem2.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[ j ] == mem2.[ j ]))	val unwritten_buffer_down (t: base_typ) (b: buffer t {buffer_writeable b}) (i: nat{i < buffer_length b}) (v: base_typ_as_vale_type t) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a: b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))\/mem2.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[ j ] == mem2.[ j ]))	let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 30, "end_line": 377, "start_col": 0, "start_line": 339 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	t: Vale.Arch.HeapTypes_s.base_typ -> b: Vale.Arch.HeapImpl.buffer t {Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.base_typ_as_vale_type t -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))} -> FStar.Pervasives.Lemma (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.buffer_write b i v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in forall (a: Vale.PPC64LE.Memory.b8 { FStar.List.Tot.Base.memP a (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h)) /\ ~(a == b) }) (j: Prims.int). {:pattern mem1.[ j ]; FStar.List.Tot.Base.memP a (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))\/mem2.[ j ]; FStar.List.Tot.Base.memP a (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h))} let base = Vale.Interop.Heap_s.addrs_of_mem (Vale.Arch.HeapImpl._ih h) a in j >= base /\ j < base + LowStar.BufferView.Down.length (Vale.Interop.Types.get_downview (Buffer?.bsrc a)) ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapImpl.buffer", "Vale.PPC64LE.Memory.buffer_writeable", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.base_typ_as_vale_type", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "FStar.Classical.forall_intro", "Vale.PPC64LE.Memory.b8", "Prims.l_and", "Prims.l_not", "Prims.eq2", "Prims.l_Forall", "Prims.int", "Prims.l_imp", "Prims.op_GreaterThanOrEqual", "Vale.Interop.Heap_s.addrs_of_mem", "Prims.op_Addition", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.buffer_write", "Vale.Interop.Heap_s.__proj__InteropHeap__item__ptrs", "Prims.unit", "Prims.l_True", "Prims.squash", "Vale.Interop.Heap_s.__proj__InteropHeap__item__addrs", "Vale.Def.Words_s.nat8", "FStar.Map.sel", "Prims.Nil", "FStar.Pervasives.pattern", "Prims.op_Equality", "Prims.bool", "Vale.PPC64LE.Memory_Sems.heap_shift", "Prims._assert", "Prims.op_LessThanOrEqual", "FStar.Seq.Base.length", "Prims.l_or", "Vale.Def.Words_s.pow2_8", "Vale.PPC64LE.Memory.v_to_typ", "Vale.Arch.HeapTypes_s.TUInt8", "FStar.Seq.Base.index", "Prims.op_Subtraction", "FStar.Seq.Base.equal", "Vale.Lib.BufferViewHelpers.lemma_dv_equal", "Vale.Interop.Types.down_view", "Vale.Interop.Heap_s.hs_of_mem", "Vale.Def.Opaque_s.opaque_assert", "Prims.list", "Prims.logical", "Vale.Interop.Heap_s.list_disjoint_or_eq", "Vale.Interop.Heap_s.list_disjoint_or_eq_def", "LowStar.Monotonic.Buffer.disjoint", "FStar.Seq.Properties.lseq", "LowStar.BufferView.Down.as_seq", "Vale.Def.Words_s.nat64", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "LowStar.BufferView.Down.buffer" ]	[]	false	false	true	false	false	let unwritten_buffer_down (t: base_typ) (b: buffer t {buffer_writeable b}) (i: nat{i < buffer_length b}) (v: base_typ_as_vale_type t) (h: vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a: b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))\/mem2.[ j ]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[ j ] == mem2.[ j ])) =	let aux (a: b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures (let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[ j ] == mem2.[ j ])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j: int). {:pattern (mem1.[ j ])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[ j ]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128	val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h )	val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h )	let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 55, "end_line": 767, "start_col": 0, "start_line": 764 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h )	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b) (ensures Vale.Arch.MachineHeap_s.get_heap_val128 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) (Vale.PPC64LE.Memory_Sems.get_heap h) == Vale.PPC64LE.Memory.buffer_read b i h)	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory_Sems.equiv_load_mem128_aux", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.scale16", "Prims.unit", "Vale.PPC64LE.Memory.lemma_load_mem128", "Vale.PPC64LE.Memory.lemma_valid_mem128" ]	[]	true	false	true	false	false	let low_lemma_load_mem128 b i h =	lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.same_mem_get_heap_val64	val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x]))	val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x]))	let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 53, "end_line": 265, "start_col": 0, "start_line": 245 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x]))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> k: Prims.nat{k < Vale.PPC64LE.Memory.buffer_length b} -> h1: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (Vale.Interop.Heap_s.ptrs_of_mem (Vale.Arch.HeapImpl._ih h1))} -> h2: Vale.Arch.HeapImpl.vale_heap{h2 == Vale.PPC64LE.Memory.buffer_write b i v h1} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h1) mem1 b} -> mem2: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h2) mem2 b} -> FStar.Pervasives.Lemma (requires FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h1 b) k == FStar.Seq.Base.index (Vale.PPC64LE.Memory.buffer_as_seq h2 b) k) (ensures (let ptr = Vale.PPC64LE.Memory.buffer_addr b h1 + Vale.PPC64LE.Memory.scale8 k in forall (x: Prims.int). {:pattern mem1.[ x ]} ptr <= x /\ x < ptr + 8 ==> mem1.[ x ] == mem2.[ x ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint64", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.ptrs_of_mem", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down_p", "Prims._assert", "Prims.l_Forall", "Prims.int", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale8", "Prims.unit", "FStar.Classical.forall_intro", "Prims.l_and", "Prims.op_LessThanOrEqual", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.l_True", "Prims.squash", "Vale.Def.Words_s.nat8", "FStar.Map.sel", "Prims.Nil", "FStar.Pervasives.pattern", "Prims.l_or", "FStar.UInt.size", "FStar.UInt8.n", "Prims.op_GreaterThanOrEqual", "Vale.Def.Words_s.pow2_8", "FStar.UInt8.v", "FStar.Seq.Base.index", "FStar.UInt8.t", "LowStar.BufferView.Down.as_seq", "Vale.Interop.Heap_s.hs_of_mem", "FStar.Mul.op_Star", "Vale.PPC64LE.Memory_Sems.length_up64", "FStar.Seq.Base.seq", "FStar.Seq.Base.slice", "Vale.PPC64LE.Memory_Sems.same_mem_eq_slices64", "LowStar.BufferView.Up.as_seq_sel", "FStar.UInt64.t", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "Vale.PPC64LE.Memory.uint64_view", "LowStar.BufferView.Down.buffer", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Prims.op_Subtraction", "Vale.PPC64LE.Memory.buffer_addr" ]	[]	false	false	true	false	false	let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 =	let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x: int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[ x ] == mem2.[ x ]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[ addr + (scale8 k + i) ] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[ addr + (scale8 k + i) ] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i)	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_AESNI_enc	val va_codegen_success_AESNI_enc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	val va_codegen_success_AESNI_enc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	let va_codegen_success_AESNI_enc dst src = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 93, "start_col": 0, "start_line": 92 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_AESNI_enc dst src =	(va_ttrue ())	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_VAESNI_enc	val va_codegen_success_VAESNI_enc : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_pbool	val va_codegen_success_VAESNI_enc : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_pbool	let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 124, "start_col": 0, "start_line": 123 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_VAESNI_enc dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full	val low_lemma_load_mem128_full (b:buffer128) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf128 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale16 i in is_full_read vfh.vf_heap h b i /\ valid_mem128 ptr vfh.vf_heap /\ valid_taint_buf128 b vfh.vf_heap mt t ))	val low_lemma_load_mem128_full (b:buffer128) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf128 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale16 i in is_full_read vfh.vf_heap h b i /\ valid_mem128 ptr vfh.vf_heap /\ valid_taint_buf128 b vfh.vf_heap mt t ))	let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 977, "start_col": 0, "start_line": 975 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> vfh: Vale.Arch.HeapImpl.vale_full_heap -> t: Vale.Arch.HeapTypes_s.taint -> hid: Vale.Arch.HeapImpl.heaplet_id -> FStar.Pervasives.Lemma (requires (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.valid_layout_buffer b (Mkvale_full_heap?.vf_layout vfh) h false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b h mt t /\ Vale.PPC64LE.Memory.mem_inv vfh) <: Type0)) (ensures (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in let ptr = Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i in Vale.PPC64LE.Memory_Sems.is_full_read (Mkvale_full_heap?.vf_heap vfh) h b i /\ Vale.PPC64LE.Memory.valid_mem128 ptr (Mkvale_full_heap?.vf_heap vfh) /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (Mkvale_full_heap?.vf_heap vfh) mt t) <: Type0))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_full_heap", "Vale.Arch.HeapTypes_s.taint", "Vale.Arch.HeapImpl.heaplet_id", "Prims.unit", "FStar.Pervasives.reveal_opaque", "Vale.Arch.HeapTypes_s.base_typ", "Vale.PPC64LE.Memory.buffer", "Vale.Arch.HeapImpl.vale_heap_layout", "FStar.Pervasives.Native.option", "Prims.bool", "Vale.Def.Prop_s.prop0", "Vale.PPC64LE.Memory.valid_layout_buffer_id" ]	[]	true	false	true	false	false	let low_lemma_load_mem128_full b i vfh t hid =	reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.equiv_load_mem128_aux	val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h))	val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h))	let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 25, "end_line": 750, "start_col": 0, "start_line": 741 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires Vale.PPC64LE.Memory.valid_mem128 ptr h) (ensures Vale.PPC64LE.Memory.load_mem128 ptr h == Vale.Arch.MachineHeap_s.get_heap_val128 ptr (Vale.PPC64LE.Memory_Sems.get_heap h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory.lemma_load_mem128", "Prims.unit", "Vale.PPC64LE.Memory.index128_get_heap_val128", "Vale.Arch.MachineHeap_s.get_heap_val128_reveal", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.PPC64LE.Memory_Sems.same_domain", "Vale.PPC64LE.Memory_Sems.get_heap", "FStar.Seq.Properties.lseq", "FStar.UInt8.t", "LowStar.BufferView.Down.length", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "LowStar.BufferView.Down.as_seq", "Vale.Interop.Heap_s.__proj__InteropHeap__item__hs", "Vale.Arch.HeapImpl._ih", "Vale.PPC64LE.Memory.buffer_addr", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.Arch.HeapImpl.buffer", "Vale.PPC64LE.Memory.get_addr_ptr", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt128" ]	[]	true	false	true	false	false	let equiv_load_mem128_aux ptr h =	let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_AESNI_enc_last	val va_codegen_success_AESNI_enc_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	val va_codegen_success_AESNI_enc_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 155, "start_col": 0, "start_line": 154 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_AESNI_enc_last dst src =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_store_mem64_full	val low_lemma_store_mem64_full (b:buffer64) (i:nat) (v:nat64) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b /\ valid_layout_buffer b vfh.vf_layout h true /\ valid_taint_buf64 b h mt t /\ mem_inv vfh )) (ensures ( let h = Map16.get vfh.vf_heaplets hid in let h' = buffer_write b i v h in let ptr = buffer_addr b h + scale8 i in buffer_addr b vfh.vf_heap == buffer_addr b h /\ valid_addr64 ptr (heap_get (coerce vfh)) /\ is_full_update vfh h' hid (S.update_heap64 ptr v (heap_get (coerce vfh))) (S.update_n ptr 8 (heap_taint (coerce vfh)) t) ))	val low_lemma_store_mem64_full (b:buffer64) (i:nat) (v:nat64) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b /\ valid_layout_buffer b vfh.vf_layout h true /\ valid_taint_buf64 b h mt t /\ mem_inv vfh )) (ensures ( let h = Map16.get vfh.vf_heaplets hid in let h' = buffer_write b i v h in let ptr = buffer_addr b h + scale8 i in buffer_addr b vfh.vf_heap == buffer_addr b h /\ valid_addr64 ptr (heap_get (coerce vfh)) /\ is_full_update vfh h' hid (S.update_heap64 ptr v (heap_get (coerce vfh))) (S.update_n ptr 8 (heap_taint (coerce vfh)) t) ))	let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 722, "start_col": 0, "start_line": 707 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64 -> i: Prims.nat -> v: Vale.Def.Words_s.nat64 -> vfh: Vale.Arch.HeapImpl.vale_full_heap -> t: Vale.Arch.HeapTypes_s.taint -> hid: Vale.Arch.HeapImpl.heaplet_id -> FStar.Pervasives.Lemma (requires (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.buffer_writeable b /\ Vale.PPC64LE.Memory.valid_layout_buffer b (Mkvale_full_heap?.vf_layout vfh) h true /\ Vale.PPC64LE.Memory.valid_taint_buf64 b h mt t /\ Vale.PPC64LE.Memory.mem_inv vfh) <: Type0)) (ensures (let h = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid in let h' = Vale.PPC64LE.Memory.buffer_write b i v h in let ptr = Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale8 i in Vale.PPC64LE.Memory.buffer_addr b (Mkvale_full_heap?.vf_heap vfh) == Vale.PPC64LE.Memory.buffer_addr b h /\ Vale.Arch.MachineHeap_s.valid_addr64 ptr (Vale.Arch.Heap.heap_get (Vale.PPC64LE.Memory_Sems.coerce vfh)) /\ Vale.PPC64LE.Memory_Sems.is_full_update vfh h' hid (Vale.Arch.MachineHeap_s.update_heap64 ptr v (Vale.Arch.Heap.heap_get (Vale.PPC64LE.Memory_Sems.coerce vfh))) (Vale.PPC64LE.Semantics_s.update_n ptr 8 (Vale.Arch.Heap.heap_taint (Vale.PPC64LE.Memory_Sems.coerce vfh)) t)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Prims.nat", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_full_heap", "Vale.Arch.HeapTypes_s.taint", "Vale.Arch.HeapImpl.heaplet_id", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory.memtaint", "Prims.unit", "Vale.PPC64LE.Memory_Sems.lemma_is_full_update", "Vale.Arch.HeapImpl.__proj__ValeHeap__item__mh", "Vale.Arch.HeapTypes_s.TUInt64", "Vale.Arch.MachineHeap.same_mem_get_heap_val64", "Vale.PPC64LE.Memory_Sems.in_bounds64", "Vale.Arch.MachineHeap.frame_update_heap64", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem64", "Vale.Lib.Map16.get", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_heaplets", "FStar.Pervasives.reveal_opaque", "Vale.Arch.HeapTypes_s.base_typ", "Vale.PPC64LE.Memory.buffer", "Vale.Arch.HeapImpl.vale_heap_layout", "FStar.Pervasives.Native.option", "Prims.bool", "Vale.Def.Prop_s.prop0", "Vale.PPC64LE.Memory.valid_layout_buffer_id", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Arch.MachineHeap_s.update_heap64", "Vale.PPC64LE.Memory_Sems.get_heap", "Vale.PPC64LE.Memory.buffer_write", "Vale.PPC64LE.Memory.vuint64", "Vale.Arch.HeapTypes_s.memTaint_t", "Prims.l_Forall", "Prims.int", "Prims.l_and", "Prims.l_imp", "Prims.b2t", "Prims.op_GreaterThanOrEqual", "Prims.op_LessThan", "Prims.op_Addition", "Prims.eq2", "Vale.PPC64LE.Semantics_s.op_String_Access", "Prims.l_or", "Vale.Arch.Heap.heap_taint", "FStar.Map.sel", "Vale.PPC64LE.Semantics_s.update_n", "Vale.PPC64LE.Memory_Sems.coerce", "Vale.Arch.Heap.heap_impl", "Vale.Arch.Heap.heap_get", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.scale8", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.Mktuple3", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_heap", "Vale.Arch.HeapImpl.__proj__Mkvale_heap_layout__item__vl_taint", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_layout" ]	[]	false	false	true	false	false	let low_lemma_store_mem64_full b i v vfh t hid =	let h, mt, hk = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; ()	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_store_mem64_aux	val low_lemma_store_mem64_aux (b: buffer64) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b)))	val low_lemma_store_mem64_aux (b: buffer64) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b)))	let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 76, "end_line": 607, "start_col": 0, "start_line": 588 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer64 -> heap: Vale.Arch.MachineHeap_s.machine_heap -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.Def.Words_s.nat64 -> h: Vale.Arch.HeapImpl.vale_heap {Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.buffer_writeable b} -> FStar.Pervasives.Lemma (requires Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h) heap b) (ensures (let heap' = Vale.Arch.MachineHeap_s.update_heap64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale8 i) v heap in let h' = Vale.PPC64LE.Memory.store_mem64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale8 i) v h in InteropHeap?.hs (Vale.Arch.HeapImpl._ih h') == LowStar.BufferView.Down.upd_seq (InteropHeap?.hs (Vale.Arch.HeapImpl._ih h)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b)) (Vale.Interop.get_seq_heap heap' (InteropHeap?.addrs (Vale.Arch.HeapImpl._ih h)) b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer64", "Vale.Arch.MachineHeap_s.machine_heap", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint64", "Vale.Def.Words_s.nat64", "Vale.Arch.HeapImpl.vale_heap", "Prims.l_and", "Vale.PPC64LE.Memory.buffer_readable", "Vale.PPC64LE.Memory.buffer_writeable", "Prims._assert", "Prims.eq2", "FStar.Monotonic.HyperStack.mem", "LowStar.BufferView.Up.upd", "FStar.UInt64.t", "Vale.Interop.Heap_s.__proj__InteropHeap__item__hs", "Vale.Arch.HeapImpl._ih", "FStar.UInt64.uint_to_t", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.Interop.Views.up_view64", "LowStar.BufferView.Down.buffer", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Prims.unit", "Vale.X64.BufferViewStore.bv_upd_update_heap64", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt64", "Vale.PPC64LE.Memory.lemma_store_mem64", "Vale.PPC64LE.Memory.store_mem64", "Vale.Arch.MachineHeap_s.update_heap64", "Prims.int", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.scale8", "Vale.Interop.Heap_s.correct_down_p", "Prims.squash", "LowStar.BufferView.Down.upd_seq", "Vale.Interop.get_seq_heap", "Vale.Interop.Heap_s.__proj__InteropHeap__item__addrs", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let low_lemma_store_mem64_aux (b: buffer64) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: nat64) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) =	let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_valid_mem128_64	val low_lemma_valid_mem128_64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr64 (buffer_addr b h + scale16 i) (get_heap h) /\ S.valid_addr64 (buffer_addr b h + scale16 i + 8) (get_heap h) )	val low_lemma_valid_mem128_64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr64 (buffer_addr b h + scale16 i) (get_heap h) /\ S.valid_addr64 (buffer_addr b h + scale16 i + 8) (get_heap h) )	let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 52, "end_line": 1015, "start_col": 0, "start_line": 1010 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b) (ensures Vale.Arch.MachineHeap_s.valid_addr64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) (Vale.PPC64LE.Memory_Sems.get_heap h) /\ Vale.Arch.MachineHeap_s.valid_addr64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i + 8) (Vale.PPC64LE.Memory_Sems.get_heap h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_heap", "Prims._assert", "Prims.b2t", "Prims.op_Equality", "Prims.int", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.scale16", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_valid_mem128", "FStar.Pervasives.reveal_opaque", "Vale.Arch.MachineHeap_s.machine_heap", "Prims.bool", "Vale.Arch.MachineHeap_s.valid_addr128", "Vale.Arch.MachineHeap_s.valid_addr64" ]	[]	true	false	true	false	false	let low_lemma_valid_mem128_64 b i h =	reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8)	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux2	val written_buffer_down128_aux2 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale16 (i + 1) <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale16 (i + 1) /\ j < base + scale16 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k])	val written_buffer_down128_aux2 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale16 (i + 1) <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale16 (i + 1) /\ j < base + scale16 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k])	let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 7, "end_line": 854, "start_col": 0, "start_line": 830 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (InteropHeap?.ptrs (Vale.Arch.HeapImpl._ih h))} -> base: Prims.nat{base == Vale.PPC64LE.Memory.buffer_addr b h} -> n: Prims.nat{n == Vale.PPC64LE.Memory.buffer_length b} -> k: Prims.nat{k > i} -> h1: Vale.Arch.HeapImpl.vale_heap{h1 == Vale.PPC64LE.Memory.buffer_write b i v h} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h) mem1} -> mem2: Vale.Arch.MachineHeap_s.machine_heap { Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h1) mem2 /\ (forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base + Vale.PPC64LE.Memory.scale16 (i + 1) <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) } -> FStar.Pervasives.Lemma (ensures forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j >= base + Vale.PPC64LE.Memory.scale16 (i + 1) /\ j < base + Vale.PPC64LE.Memory.scale16 n ==> mem1.[ j ] == mem2.[ j ]) (decreases n - k)	FStar.Pervasives.Lemma	[ "lemma", "" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.__proj__InteropHeap__item__ptrs", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Prims.op_GreaterThan", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Prims.l_and", "Prims.l_Forall", "Prims.l_imp", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale16", "FStar.Mul.op_Star", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.op_GreaterThanOrEqual", "Prims.bool", "Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux2", "Prims.unit", "Vale.PPC64LE.Memory_Sems.heap_shift", "Vale.PPC64LE.Memory_Sems.same_mem_get_heap_val128", "Prims.l_True", "Prims.squash", "Prims.Nil", "FStar.Pervasives.pattern" ]	[ "recursion" ]	false	false	true	false	false	let rec written_buffer_down128_aux2 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (n: nat{n == buffer_length b}) (k: nat{k > i}) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base + scale16 (i + 1) <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} j >= base + scale16 (i + 1) /\ j < base + scale16 n ==> mem1.[ j ] == mem2.[ j ])) (decreases %[n - k]) =	if k >= n then () else let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k + 1) h1 mem1 mem2	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down128	val written_buffer_down128 (b: buffer128) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i + 1) <= j /\ j < base + scale16 n) ==> mem1.[ j ] == mem2.[ j ]))	val written_buffer_down128 (b: buffer128) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i + 1) <= j /\ j < base + scale16 n) ==> mem1.[ j ] == mem2.[ j ]))	let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 65, "end_line": 875, "start_col": 0, "start_line": 856 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires FStar.List.Tot.Base.memP b (InteropHeap?.ptrs (Vale.Arch.HeapImpl._ih h)) /\ Vale.PPC64LE.Memory.buffer_writeable b) (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.buffer_write b i v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in let base = Vale.PPC64LE.Memory.buffer_addr b h in let n = Vale.PPC64LE.Memory.buffer_length b in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base <= j /\ j < base + Vale.PPC64LE.Memory.scale16 i \/ base + Vale.PPC64LE.Memory.scale16 (i + 1) <= j /\ j < base + Vale.PPC64LE.Memory.scale16 n ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux2", "Prims.op_Addition", "Prims.unit", "Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux1", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.buffer_write", "Prims.l_and", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.__proj__InteropHeap__item__ptrs", "Vale.PPC64LE.Memory.buffer_writeable", "Prims.squash", "Prims.l_Forall", "Prims.l_imp", "Prims.l_or", "Prims.op_LessThanOrEqual", "Vale.PPC64LE.Memory.scale16", "Prims.eq2", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let written_buffer_down128 (b: buffer128) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i + 1) <= j /\ j < base + scale16 n) ==> mem1.[ j ] == mem2.[ j ])) =	let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i + 1) h1 mem1 mem2	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_aux_down128_mem2	val store_buffer_aux_down128_mem2 (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr + 4) mem2) (S.get_heap_val32 (ptr + 8) mem2) (S.get_heap_val32 (ptr + 12) mem2) == v))	val store_buffer_aux_down128_mem2 (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr + 4) mem2) (S.get_heap_val32 (ptr + 8) mem2) (S.get_heap_val32 (ptr + 12) mem2) == v))	let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 40, "end_line": 950, "start_col": 0, "start_line": 931 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap{Vale.PPC64LE.Memory.writeable_mem128 ptr h} -> FStar.Pervasives.Lemma (ensures (let h1 = Vale.PPC64LE.Memory.store_mem Vale.Arch.HeapTypes_s.TUInt128 ptr v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in Vale.Def.Words_s.Mkfour (Vale.Arch.MachineHeap_s.get_heap_val32 ptr mem2) (Vale.Arch.MachineHeap_s.get_heap_val32 (ptr + 4) mem2) (Vale.Arch.MachineHeap_s.get_heap_val32 (ptr + 8) mem2) (Vale.Arch.MachineHeap_s.get_heap_val32 (ptr + 12) mem2) == v))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Prims.b2t", "Vale.PPC64LE.Memory.writeable_mem128", "Vale.PPC64LE.Memory.index128_get_heap_val128", "Prims.unit", "Prims._assert", "Prims.eq2", "Vale.PPC64LE.Memory.base_typ_as_vale_type", "FStar.Seq.Base.index", "Vale.PPC64LE.Memory.buffer_as_seq", "Vale.PPC64LE.Memory.store_buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.store_mem", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapImpl.buffer", "FStar.Pervasives.Native.__proj__Some__item__v", "Vale.PPC64LE.Memory.buffer", "Vale.PPC64LE.Memory.find_writeable_buffer", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt128", "Prims.l_True", "Prims.squash", "Vale.Def.Words_s.four", "Vale.Def.Types_s.nat32", "Vale.Def.Words_s.Mkfour", "Vale.Arch.MachineHeap_s.get_heap_val32", "Prims.op_Addition", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let store_buffer_aux_down128_mem2 (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr + 4) mem2) (S.get_heap_val32 (ptr + 8) mem2) (S.get_heap_val32 (ptr + 12) mem2) == v)) =	let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.frame_get_heap32	val frame_get_heap32 (ptr: int) (mem1 mem2: S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[ i ] == mem2.[ i ])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2)	val frame_get_heap32 (ptr: int) (mem1 mem2: S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[ i ] == mem2.[ i ])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2)	let frame_get_heap32 (ptr:int) (mem1 mem2:S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[i] == mem2.[i])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2) = S.get_heap_val32_reveal ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 28, "end_line": 1045, "start_col": 0, "start_line": 1042 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; () #push-options "--smtencoding.l_arith_repr boxwrap" let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8) #pop-options open Vale.Def.Words.Two_s open Vale.Def.Words.Four_s let low_lemma_load_mem128_lo64 b i h = low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () let low_lemma_load_mem128_hi64 b i h = low_lemma_load_mem128 b i h; hi64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () //let same_domain_update128_64 b i v h = // low_lemma_valid_mem128_64 b i (_ih h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i) v (get_heap h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i + 8) v (get_heap h) open Vale.Def.Types_s	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> mem1: Vale.Arch.MachineHeap_s.machine_heap -> mem2: Vale.Arch.MachineHeap_s.machine_heap -> FStar.Pervasives.Lemma (requires forall (i: Prims.int). i >= ptr /\ i < ptr + 4 ==> mem1.[ i ] == mem2.[ i ]) (ensures Vale.Arch.MachineHeap_s.get_heap_val32 ptr mem1 == Vale.Arch.MachineHeap_s.get_heap_val32 ptr mem2)	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Arch.MachineHeap_s.get_heap_val32_reveal", "Prims.unit", "Prims.l_Forall", "Prims.l_imp", "Prims.l_and", "Prims.b2t", "Prims.op_GreaterThanOrEqual", "Prims.op_LessThan", "Prims.op_Addition", "Prims.eq2", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.squash", "Vale.Def.Types_s.nat32", "Vale.Arch.MachineHeap_s.get_heap_val32", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let frame_get_heap32 (ptr: int) (mem1 mem2: S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[ i ] == mem2.[ i ])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2) =	S.get_heap_val32_reveal ()	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_AESNI_dec	val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	let va_codegen_success_AESNI_dec dst src = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 221, "start_col": 0, "start_line": 220 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_AESNI_dec dst src =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_aux	val low_lemma_store_mem128_aux (b: buffer128) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b)))	val low_lemma_store_mem128_aux (b: buffer128) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b)))	let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs)	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 57, "end_line": 792, "start_col": 0, "start_line": 773 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> heap: Vale.Arch.MachineHeap_s.machine_heap -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap {Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.buffer_writeable b} -> FStar.Pervasives.Lemma (requires Vale.Interop.Heap_s.correct_down_p (Vale.Arch.HeapImpl._ih h) heap b) (ensures (let heap' = Vale.Arch.MachineHeap_s.update_heap128 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) v heap in let h' = Vale.PPC64LE.Memory.store_mem128 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) v h in InteropHeap?.hs (Vale.Arch.HeapImpl._ih h') == LowStar.BufferView.Down.upd_seq (InteropHeap?.hs (Vale.Arch.HeapImpl._ih h)) (Vale.Interop.Types.get_downview (Buffer?.bsrc b)) (Vale.Interop.get_seq_heap heap' (InteropHeap?.addrs (Vale.Arch.HeapImpl._ih h)) b)))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Vale.Arch.MachineHeap_s.machine_heap", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Prims.l_and", "Vale.PPC64LE.Memory.buffer_readable", "Vale.PPC64LE.Memory.buffer_writeable", "Prims._assert", "Prims.eq2", "FStar.Monotonic.HyperStack.mem", "LowStar.BufferView.Up.upd", "Vale.Def.Types_s.quad32", "Vale.Interop.Heap_s.__proj__InteropHeap__item__hs", "Vale.Arch.HeapImpl._ih", "LowStar.BufferView.Up.buffer", "LowStar.BufferView.Up.mk_buffer", "FStar.UInt8.t", "Vale.Interop.Views.up_view128", "LowStar.BufferView.Down.buffer", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Prims.unit", "Vale.X64.BufferViewStore.bv_upd_update_heap128", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt128", "Vale.PPC64LE.Memory.lemma_store_mem128", "Vale.PPC64LE.Memory.store_mem128", "Vale.Arch.MachineHeap_s.update_heap128", "Prims.int", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.scale16", "Vale.Interop.Heap_s.correct_down_p", "Prims.squash", "LowStar.BufferView.Down.upd_seq", "Vale.Interop.get_seq_heap", "Vale.Interop.Heap_s.__proj__InteropHeap__item__addrs", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let low_lemma_store_mem128_aux (b: buffer128) (heap: S.machine_heap) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) =	let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs)	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_code_Pclmulqdq	val va_code_Pclmulqdq : dst:va_operand_xmm -> src:va_operand_xmm -> dstHi:bool -> srcHi:bool -> Tot va_code	val va_code_Pclmulqdq : dst:va_operand_xmm -> src:va_operand_xmm -> dstHi:bool -> srcHi:bool -> Tot va_code	let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src)))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 27, "end_line": 22, "start_col": 0, "start_line": 20 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> dstHi: Prims.bool -> srcHi: Prims.bool -> Vale.X64.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Prims.bool", "Vale.X64.Taint_Semantics.mk_ins", "Vale.X64.InsLemmas.make_instr", "Prims.Cons", "Vale.X64.Instruction_s.instr_out", "Vale.X64.Instruction_s.inOut", "Vale.X64.Instruction_s.opXmm", "Prims.Nil", "Vale.X64.Instruction_s.instr_operand", "Vale.X64.Instruction_s.PreserveFlags", "Vale.X64.Instructions_s.ins_Pclmulqdq", "Prims.op_Addition", "Prims.int", "Vale.X64.Machine_s.OReg", "Vale.X64.Machine_s.quad32", "Vale.X64.Machine_s.reg_xmm", "Vale.X64.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Pclmulqdq dst src dstHi srcHi =	(mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src)))	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.isEmpty	val isEmpty: list 'a -> Tot bool	val isEmpty: list 'a -> Tot bool	let isEmpty l = match l with \| [] -> true \| _ -> false	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 14, "end_line": 34, "start_col": 0, "start_line": 32 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a -> Prims.bool	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.bool" ]	[]	false	false	false	true	false	let isEmpty l =	match l with \| [] -> true \| _ -> false	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_VAESNI_enc_last	val va_codegen_success_VAESNI_enc_last : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_pbool	val va_codegen_success_VAESNI_enc_last : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_pbool	let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 186, "start_col": 0, "start_line": 185 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2)))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_VAESNI_enc_last dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_down128_mem	val store_buffer_down128_mem (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale16 i \/ j >= base + scale16 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	val store_buffer_down128_mem (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale16 i \/ j >= base + scale16 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 30, "end_line": 910, "start_col": 0, "start_line": 877 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (InteropHeap?.ptrs (Vale.Arch.HeapImpl._ih h))} -> FStar.Pervasives.Lemma (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.buffer_write b i v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in let base = Vale.PPC64LE.Memory.buffer_addr b h in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + Vale.PPC64LE.Memory.scale16 i \/ j >= base + Vale.PPC64LE.Memory.scale16 (i + 1) ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.__proj__InteropHeap__item__ptrs", "Vale.Arch.HeapImpl._ih", "FStar.Classical.forall_intro", "Prims.int", "Prims.l_imp", "Prims.l_or", "Prims.op_Addition", "Vale.PPC64LE.Memory.scale16", "Prims.op_GreaterThanOrEqual", "Prims.eq2", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.unit", "Prims.l_True", "Prims.squash", "Vale.PPC64LE.Memory.scale_by", "Vale.Def.Words_s.nat8", "FStar.Map.sel", "Prims.Nil", "FStar.Pervasives.pattern", "Prims.op_AmpAmp", "LowStar.BufferView.Down.length", "FStar.UInt8.t", "Vale.Interop.Types.get_downview", "Vale.Interop.Types.__proj__Buffer__item__src", "Vale.Interop.Types.b8_preorder", "Vale.Interop.Types.__proj__Buffer__item__writeable", "Vale.Interop.Types.base_typ_as_type", "Vale.Interop.Types.__proj__Buffer__item__bsrc", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapTypes_s.TUInt128", "Vale.PPC64LE.Memory_Sems.written_buffer_down128", "Prims.bool", "Prims.op_Negation", "Vale.Interop.valid_addr", "Vale.Interop.same_unspecified_down", "Vale.Interop.Heap_s.__proj__InteropHeap__item__hs", "Vale.PPC64LE.Memory_Sems.unwritten_buffer_down", "Vale.Interop.addrs_set_lemma_all", "Vale.PPC64LE.Memory.buffer_addr", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Interop.down_mem", "Vale.PPC64LE.Memory.buffer_write", "Prims.l_Forall" ]	[]	false	false	true	false	false	let store_buffer_down128_mem (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j: int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < base + scale16 i \/ j >= base + scale16 (i + 1) ==> mem1.[ j ] == mem2.[ j ])) =	let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j: int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i + 1) ==> mem1.[ j ] == mem2.[ j ]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then (written_buffer_down128 b i v h; length_t_eq TUInt128 b) else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux1	val written_buffer_down128_aux1 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale16 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k])	val written_buffer_down128_aux1 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale16 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k])	let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 7, "end_line": 827, "start_col": 0, "start_line": 804 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') ))	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128{Vale.PPC64LE.Memory.buffer_writeable b} -> i: Prims.nat{i < Vale.PPC64LE.Memory.buffer_length b} -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap {FStar.List.Tot.Base.memP b (InteropHeap?.ptrs (Vale.Arch.HeapImpl._ih h))} -> base: Prims.nat{base == Vale.PPC64LE.Memory.buffer_addr b h} -> k: Prims.nat -> h1: Vale.Arch.HeapImpl.vale_heap{h1 == Vale.PPC64LE.Memory.buffer_write b i v h} -> mem1: Vale.Arch.MachineHeap_s.machine_heap {Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h) mem1} -> mem2: Vale.Arch.MachineHeap_s.machine_heap { Vale.Interop.Heap_s.correct_down (Vale.Arch.HeapImpl._ih h1) mem2 /\ (forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} base <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) } -> FStar.Pervasives.Lemma (ensures forall (j: Prims.int). {:pattern mem1.[ j ]\/mem1.[ j ]} j >= base /\ j < base + Vale.PPC64LE.Memory.scale16 i ==> mem1.[ j ] == mem2.[ j ]) (decreases i - k)	FStar.Pervasives.Lemma	[ "lemma", "" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Vale.PPC64LE.Memory.buffer_writeable", "Vale.PPC64LE.Memory.vuint128", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "FStar.List.Tot.Base.memP", "Vale.Interop.Types.b8", "Vale.Interop.Heap_s.__proj__InteropHeap__item__ptrs", "Vale.Arch.HeapImpl._ih", "Prims.eq2", "Prims.int", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.buffer_write", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Prims.l_and", "Prims.l_Forall", "Prims.l_imp", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "FStar.Mul.op_Star", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Prims.op_GreaterThanOrEqual", "Prims.bool", "Vale.PPC64LE.Memory_Sems.written_buffer_down128_aux1", "Prims.unit", "Vale.PPC64LE.Memory_Sems.heap_shift", "Vale.PPC64LE.Memory_Sems.same_mem_get_heap_val128", "Vale.PPC64LE.Memory.scale16", "Prims.l_True", "Prims.squash", "Prims.Nil", "FStar.Pervasives.pattern" ]	[ "recursion" ]	false	false	true	false	false	let rec written_buffer_down128_aux1 (b: buffer128{buffer_writeable b}) (i: nat{i < buffer_length b}) (v: quad32) (h: vale_heap{List.memP b (_ih h).IB.ptrs}) (base: nat{base == buffer_addr b h}) (k: nat) (h1: vale_heap{h1 == buffer_write b i v h}) (mem1: S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2: S.machine_heap { IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[ j ])\/(mem2.[ j ])} base <= j /\ j < base + k * 16 ==> mem1.[ j ] == mem2.[ j ]) }) : Lemma (ensures (forall j. {:pattern (mem1.[ j ])\/(mem1.[ j ])} j >= base /\ j < base + scale16 i ==> mem1.[ j ] == mem2.[ j ])) (decreases %[i - k]) =	if k >= i then () else let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k + 1) h1 mem1 mem2	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.tl	val tl: l:list 'a {Cons? l} -> Tot (list 'a)	val tl: l:list 'a {Cons? l} -> Tot (list 'a)	let tl = tail	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 13, "end_line": 53, "start_col": 0, "start_line": 53 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a {Cons? l} -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "FStar.List.Tot.Base.tail" ]	[]	false	false	false	false	false	let tl =	tail	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_lo64	val low_lemma_load_mem128_lo64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val64 (buffer_addr b h + scale16 i) (get_heap h) == lo64 (buffer_read b i h) )	val low_lemma_load_mem128_lo64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val64 (buffer_addr b h + scale16 i) (get_heap h) == lo64 (buffer_read b i h) )	let low_lemma_load_mem128_lo64 b i h = low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 28, "end_line": 1026, "start_col": 0, "start_line": 1021 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; () #push-options "--smtencoding.l_arith_repr boxwrap" let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8) #pop-options open Vale.Def.Words.Two_s open Vale.Def.Words.Four_s	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b) (ensures Vale.Arch.MachineHeap_s.get_heap_val64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) (Vale.PPC64LE.Memory_Sems.get_heap h) == Vale.Arch.Types.lo64 (Vale.PPC64LE.Memory.buffer_read b i h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_heap", "Vale.Arch.MachineHeap_s.get_heap_val32_reveal", "Prims.unit", "Vale.Arch.MachineHeap_s.get_heap_val64_reveal", "Vale.Arch.MachineHeap_s.get_heap_val128_reveal", "Vale.Arch.Types.lo64_reveal", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128" ]	[]	true	false	true	false	false	let low_lemma_load_mem128_lo64 b i h =	low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal ()	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_wp_AESNI_dec	val va_wp_AESNI_dec (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	val va_wp_AESNI_dec (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	let va_wp_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 57, "end_line": 250, "start_col": 0, "start_line": 243 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec dst src = (va_ttrue ()) val va_lemma_AESNI_dec : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec) (va_code_AESNI_dec dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_state", "Prims.unit", "Prims.l_and", "Vale.X64.Decls.va_is_dst_xmm", "Vale.X64.Decls.va_is_src_xmm", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.CPU_Features_s.aesni_enabled", "Prims.l_Forall", "Vale.X64.Decls.va_value_xmm", "Vale.X64.Flags.t", "Prims.l_imp", "Prims.eq2", "Vale.Def.Types_s.quad32", "Vale.X64.Decls.va_eval_xmm", "Vale.Def.Types_s.quad32_xor", "Vale.AES.AES_s.inv_mix_columns_LE", "Vale.AES.AES_common_s.inv_sub_bytes", "Vale.AES.AES_s.inv_shift_rows_LE", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_upd_flags", "Vale.X64.Decls.va_upd_operand_xmm" ]	[]	false	false	false	true	true	let va_wp_AESNI_dec (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0 =	(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst: va_value_xmm) (va_x_efl: Vale.X64.Flags.t). let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.store_buffer_aux_down128_mem	val store_buffer_aux_down128_mem (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 16 ==> mem1.[ j ] == mem2.[ j ]))	val store_buffer_aux_down128_mem (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 16 ==> mem1.[ j ] == mem2.[ j ]))	let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 36, "end_line": 929, "start_col": 0, "start_line": 912 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap{Vale.PPC64LE.Memory.writeable_mem128 ptr h} -> FStar.Pervasives.Lemma (ensures (let mem1 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h) in let h1 = Vale.PPC64LE.Memory.store_mem Vale.Arch.HeapTypes_s.TUInt128 ptr v h in let mem2 = Vale.Interop.down_mem (Vale.Arch.HeapImpl._ih h1) in forall (j: Prims.int). {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 16 ==> mem1.[ j ] == mem2.[ j ]))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Prims.b2t", "Vale.PPC64LE.Memory.writeable_mem128", "Vale.PPC64LE.Memory_Sems.store_buffer_down128_mem", "Prims.unit", "Prims._assert", "Prims.eq2", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.scale16", "Vale.PPC64LE.Memory.store_buffer_write", "Prims.nat", "Vale.PPC64LE.Memory.get_addr_in_ptr", "Vale.PPC64LE.Memory.buffer_length", "Vale.PPC64LE.Memory.length_t_eq", "Vale.Arch.HeapImpl.buffer", "FStar.Pervasives.Native.__proj__Some__item__v", "Vale.PPC64LE.Memory.buffer", "Vale.PPC64LE.Memory.find_writeable_buffer", "Vale.PPC64LE.Memory.store_mem", "Vale.Arch.HeapTypes_s.base_typ", "Vale.Arch.HeapTypes_s.TUInt128", "Prims.l_True", "Prims.squash", "Prims.l_Forall", "Prims.l_imp", "Prims.l_or", "Prims.op_LessThan", "Prims.op_GreaterThanOrEqual", "Vale.Def.Types_s.nat8", "Vale.PPC64LE.Memory.op_String_Access", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Interop.Heap_s.correct_down", "Vale.Arch.HeapImpl._ih", "Vale.Interop.down_mem", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let store_buffer_aux_down128_mem (ptr: int) (v: quad32) (h: vale_heap{writeable_mem128 ptr h}) : Lemma (ensures (let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[ j ]\/mem2.[ j ]} j < ptr \/ j >= ptr + 16 ==> mem1.[ j ] == mem2.[ j ])) =	let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i + 1) == ptr + 16); store_buffer_down128_mem b i v h	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_AESNI_dec_last	val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	let va_codegen_success_AESNI_dec_last dst src = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 285, "start_col": 0, "start_line": 284 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec dst src = (va_ttrue ()) val va_lemma_AESNI_dec : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec) (va_code_AESNI_dec dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec (va_code_AESNI_dec dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec dst src)) = (va_QProc (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec dst src) (va_wpProof_AESNI_dec dst src)) //-- //-- AESNI_dec_last val va_code_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec_last dst src = (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_AESNI_dec_last dst src =	(va_ttrue ())	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_hi64	val low_lemma_load_mem128_hi64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val64 (buffer_addr b h + scale16 i + 8) (get_heap h) == hi64 (buffer_read b i h) )	val low_lemma_load_mem128_hi64 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val64 (buffer_addr b h + scale16 i + 8) (get_heap h) == hi64 (buffer_read b i h) )	let low_lemma_load_mem128_hi64 b i h = low_lemma_load_mem128 b i h; hi64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 28, "end_line": 1033, "start_col": 0, "start_line": 1028 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; () #push-options "--smtencoding.l_arith_repr boxwrap" let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8) #pop-options open Vale.Def.Words.Two_s open Vale.Def.Words.Four_s let low_lemma_load_mem128_lo64 b i h = low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b) (ensures Vale.Arch.MachineHeap_s.get_heap_val64 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i + 8) (Vale.PPC64LE.Memory_Sems.get_heap h) == Vale.Arch.Types.hi64 (Vale.PPC64LE.Memory.buffer_read b i h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_heap", "Vale.Arch.MachineHeap_s.get_heap_val32_reveal", "Prims.unit", "Vale.Arch.MachineHeap_s.get_heap_val64_reveal", "Vale.Arch.MachineHeap_s.get_heap_val128_reveal", "Vale.Arch.Types.hi64_reveal", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128" ]	[]	true	false	true	false	false	let low_lemma_load_mem128_hi64 b i h =	low_lemma_load_mem128 b i h; hi64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal ()	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128	val low_lemma_store_mem128 (b:buffer128) (i:nat) (v:quad32) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b ) (ensures ( let m = S.update_heap128 (buffer_addr b h + scale16 i) v (get_heap h) in is_machine_heap_update (get_heap h) m /\ upd_heap h m == buffer_write b i v h ))	val low_lemma_store_mem128 (b:buffer128) (i:nat) (v:quad32) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ buffer_writeable b ) (ensures ( let m = S.update_heap128 (buffer_addr b h + scale16 i) v (get_heap h) in is_machine_heap_update (get_heap h) m /\ upd_heap h m == buffer_write b i v h ))	let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap'	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 45, "end_line": 990, "start_col": 0, "start_line": 979 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> v: Vale.PPC64LE.Memory.quad32 -> h: Vale.Arch.HeapImpl.vale_heap -> FStar.Pervasives.Lemma (requires i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.buffer_writeable b) (ensures (let m = Vale.Arch.MachineHeap_s.update_heap128 (Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i) v (Vale.PPC64LE.Memory_Sems.get_heap h) in Vale.Arch.MachineHeap_s.is_machine_heap_update (Vale.PPC64LE.Memory_Sems.get_heap h) m /\ Vale.PPC64LE.Memory_Sems.upd_heap h m == Vale.PPC64LE.Memory.buffer_write b i v h))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.PPC64LE.Memory.quad32", "Vale.Arch.HeapImpl.vale_heap", "Vale.Interop.update_buffer_up_mem", "Vale.Arch.HeapImpl._ih", "Prims.unit", "Vale.Interop.addrs_set_lemma_all", "Vale.PPC64LE.Memory_Sems.in_bounds128", "Vale.Arch.MachineHeap.frame_update_heap128", "Prims.op_Addition", "Vale.PPC64LE.Memory.buffer_addr", "Vale.PPC64LE.Memory.vuint128", "Vale.PPC64LE.Memory.scale16", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_aux", "Vale.PPC64LE.Memory.store_mem128", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Arch.MachineHeap_s.update_heap128", "Vale.PPC64LE.Memory_Sems.same_domain", "Vale.PPC64LE.Memory_Sems.get_heap", "Vale.PPC64LE.Memory_Sems.valid_state_store_mem128_aux", "Vale.PPC64LE.Memory.lemma_store_mem128", "Vale.PPC64LE.Memory.lemma_valid_mem128" ]	[]	true	false	true	false	false	let low_lemma_store_mem128 b i v h =	lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap'	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.update_heap128_lo	val update_heap128_lo (ptr: int) (v: quad32) (mem: S.machine_heap) : Lemma (requires S.valid_addr128 ptr mem /\ v.hi2 == S.get_heap_val32 (ptr + 8) mem /\ v.hi3 == S.get_heap_val32 (ptr + 12) mem) (ensures S.update_heap128 ptr v mem == S.update_heap32 (ptr + 4) v.lo1 (S.update_heap32 ptr v.lo0 mem))	val update_heap128_lo (ptr: int) (v: quad32) (mem: S.machine_heap) : Lemma (requires S.valid_addr128 ptr mem /\ v.hi2 == S.get_heap_val32 (ptr + 8) mem /\ v.hi3 == S.get_heap_val32 (ptr + 12) mem) (ensures S.update_heap128 ptr v mem == S.update_heap32 (ptr + 4) v.lo1 (S.update_heap32 ptr v.lo0 mem))	let update_heap128_lo (ptr:int) (v:quad32) (mem:S.machine_heap) : Lemma (requires S.valid_addr128 ptr mem /\ v.hi2 == S.get_heap_val32 (ptr+8) mem /\ v.hi3 == S.get_heap_val32 (ptr+12) mem ) (ensures S.update_heap128 ptr v mem == S.update_heap32 (ptr+4) v.lo1 (S.update_heap32 ptr v.lo0 mem)) = reveal_opaque (`%S.valid_addr128) S.valid_addr128; S.update_heap128_reveal (); let mem0 = S.update_heap32 ptr v.lo0 mem in let mem1 = S.update_heap32 (ptr+4) v.lo1 mem0 in Vale.Arch.MachineHeap.frame_update_heap32 ptr v.lo0 mem; Vale.Arch.MachineHeap.frame_update_heap32 (ptr+4) v.lo1 mem0; Vale.Arch.MachineHeap.same_domain_update32 ptr v.lo0 mem; Vale.Arch.MachineHeap.same_domain_update32 (ptr+4) v.lo1 mem0; frame_get_heap32 (ptr+8) mem mem1; frame_get_heap32 (ptr+12) mem mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr+8) mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr+12) mem1	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 62, "end_line": 1066, "start_col": 0, "start_line": 1047 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; () #push-options "--smtencoding.l_arith_repr boxwrap" let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8) #pop-options open Vale.Def.Words.Two_s open Vale.Def.Words.Four_s let low_lemma_load_mem128_lo64 b i h = low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () let low_lemma_load_mem128_hi64 b i h = low_lemma_load_mem128 b i h; hi64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () //let same_domain_update128_64 b i v h = // low_lemma_valid_mem128_64 b i (_ih h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i) v (get_heap h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i + 8) v (get_heap h) open Vale.Def.Types_s let frame_get_heap32 (ptr:int) (mem1 mem2:S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[i] == mem2.[i])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2) = S.get_heap_val32_reveal ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	ptr: Prims.int -> v: Vale.Def.Types_s.quad32 -> mem: Vale.Arch.MachineHeap_s.machine_heap -> FStar.Pervasives.Lemma (requires Vale.Arch.MachineHeap_s.valid_addr128 ptr mem /\ Mkfour?.hi2 v == Vale.Arch.MachineHeap_s.get_heap_val32 (ptr + 8) mem /\ Mkfour?.hi3 v == Vale.Arch.MachineHeap_s.get_heap_val32 (ptr + 12) mem) (ensures Vale.Arch.MachineHeap_s.update_heap128 ptr v mem == Vale.Arch.MachineHeap_s.update_heap32 (ptr + 4) (Mkfour?.lo1 v) (Vale.Arch.MachineHeap_s.update_heap32 ptr (Mkfour?.lo0 v) mem))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Vale.Def.Types_s.quad32", "Vale.Arch.MachineHeap_s.machine_heap", "Vale.Arch.MachineHeap.update_heap32_get_heap32", "Prims.op_Addition", "Prims.unit", "Vale.PPC64LE.Memory_Sems.frame_get_heap32", "Vale.Arch.MachineHeap.same_domain_update32", "Vale.Def.Words_s.__proj__Mkfour__item__lo1", "Vale.Def.Types_s.nat32", "Vale.Def.Words_s.__proj__Mkfour__item__lo0", "Vale.Arch.MachineHeap.frame_update_heap32", "Vale.Arch.MachineHeap_s.update_heap32", "Vale.Arch.MachineHeap_s.update_heap128_reveal", "FStar.Pervasives.reveal_opaque", "Prims.bool", "Vale.Arch.MachineHeap_s.valid_addr128", "Prims.l_and", "Prims.b2t", "Prims.eq2", "Vale.Def.Words_s.__proj__Mkfour__item__hi2", "Vale.Arch.MachineHeap_s.get_heap_val32", "Vale.Def.Words_s.__proj__Mkfour__item__hi3", "Prims.squash", "Vale.Arch.MachineHeap_s.update_heap128", "Prims.Nil", "FStar.Pervasives.pattern" ]	[]	true	false	true	false	false	let update_heap128_lo (ptr: int) (v: quad32) (mem: S.machine_heap) : Lemma (requires S.valid_addr128 ptr mem /\ v.hi2 == S.get_heap_val32 (ptr + 8) mem /\ v.hi3 == S.get_heap_val32 (ptr + 12) mem) (ensures S.update_heap128 ptr v mem == S.update_heap32 (ptr + 4) v.lo1 (S.update_heap32 ptr v.lo0 mem)) =	reveal_opaque (`%S.valid_addr128) S.valid_addr128; S.update_heap128_reveal (); let mem0 = S.update_heap32 ptr v.lo0 mem in let mem1 = S.update_heap32 (ptr + 4) v.lo1 mem0 in Vale.Arch.MachineHeap.frame_update_heap32 ptr v.lo0 mem; Vale.Arch.MachineHeap.frame_update_heap32 (ptr + 4) v.lo1 mem0; Vale.Arch.MachineHeap.same_domain_update32 ptr v.lo0 mem; Vale.Arch.MachineHeap.same_domain_update32 (ptr + 4) v.lo1 mem0; frame_get_heap32 (ptr + 8) mem mem1; frame_get_heap32 (ptr + 12) mem mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr + 8) mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr + 12) mem1	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.op_At		val op_At : x: Prims.list _ -> y: Prims.list _ -> Prims.list _	let op_At x y = append x y	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 26, "end_line": 124, "start_col": 0, "start_line": 124 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. *) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: Prims.list _ -> y: Prims.list _ -> Prims.list _	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.append" ]	[]	false	false	false	true	false	let ( @ ) x y =	append x y	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.hd	val hd: l:list 'a{Cons? l} -> Tot 'a	val hd: l:list 'a{Cons? l} -> Tot 'a	let hd = function \| hd::_ -> hd	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 15, "end_line": 40, "start_col": 0, "start_line": 39 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a {Cons? l} -> 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.b2t", "Prims.uu___is_Cons" ]	[]	false	false	false	false	false	let hd =	function \| hd :: _ -> hd	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.rev	val rev: list 'a -> Tot (list 'a)	val rev: list 'a -> Tot (list 'a)	let rev l = rev_acc l []	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 24, "end_line": 115, "start_col": 0, "start_line": 115 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.rev_acc", "Prims.Nil" ]	[]	false	false	false	true	false	let rev l =	rev_acc l []	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.snoc	val snoc: (list 'a * 'a) -> Tot (list 'a)	val snoc: (list 'a * 'a) -> Tot (list 'a)	let snoc (l, x) = append l [x]	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 30, "end_line": 137, "start_col": 0, "start_line": 137 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	_: (Prims.list 'a * 'a) -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "FStar.Pervasives.Native.tuple2", "Prims.list", "FStar.List.Tot.Base.append", "Prims.Cons", "Prims.Nil" ]	[]	false	false	false	true	false	let snoc (l, x) =	append l [x]	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.last	val last: l:list 'a {Cons? l} -> Tot 'a	val last: l:list 'a {Cons? l} -> Tot 'a	let rec last = function \| [hd] -> hd \| _::tl -> last tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 20, "end_line": 61, "start_col": 0, "start_line": 59 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a {Cons? l} -> 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.b2t", "Prims.uu___is_Cons", "FStar.List.Tot.Base.last" ]	[ "recursion" ]	false	false	false	false	false	let rec last =	function \| [hd] -> hd \| _ :: tl -> last tl	false
Vale.AES.X64.AESGCM.fst	Vale.AES.X64.AESGCM.va_wpProof_AES_GCM_decrypt_6mult	val va_wpProof_AES_GCM_decrypt_6mult : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AES_GCM_decrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AES_GCM_decrypt_6mult alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_AES_GCM_decrypt_6mult : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AES_GCM_decrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AES_GCM_decrypt_6mult alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_AES_GCM_decrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_decrypt_6mult (va_code_AES_GCM_decrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.AES.X64.AESGCM.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 8114, "start_col": 0, "start_line": 8092 }	module Vale.AES.X64.AESGCM open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.Def.Words_s open Vale.Def.Types_s open FStar.Seq open Vale.AES.AES_s open Vale.X64.Machine_s open Vale.X64.Memory open Vale.X64.State open Vale.X64.Decls open Vale.X64.InsBasic open Vale.X64.InsMem open Vale.X64.InsVector open Vale.X64.InsAes open Vale.X64.QuickCode open Vale.X64.QuickCodes open Vale.Arch.Types open Vale.AES.AES_helpers //open Vale.Poly1305.Math // For lemma_poly_bits64() open Vale.AES.GCM_helpers open Vale.AES.GCTR_s open Vale.AES.GCTR open Vale.Arch.TypesNative open Vale.X64.CPU_Features_s open Vale.AES.X64.PolyOps open Vale.Math.Poly2_s open Vale.Math.Poly2 open Vale.Math.Poly2.Bits_s open Vale.Math.Poly2.Bits open Vale.Math.Poly2.Lemmas open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.AES.GHash open Vale.AES.X64.AESopt open Vale.AES.X64.AESopt2 unfold let lo(x:poly):poly = mask x 64 unfold let hi(x:poly):poly = shift x (-64) //let scratch_reqs (scratch_b:buffer128) (count:nat) (heap3:vale_heap) (s:seq quad32) (z3:quad32) : prop0 = // count * 6 + 6 <= length s /\ // (let data = slice s (count * 6) (count * 6 + 6) in // z3 == reverse_bytes_quad32 (index data 5) /\ // buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ // buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ // buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ // buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ // buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0)) let scratch_reqs_simple (scratch_b:buffer128) (heap3:vale_heap) (data:seq quad32) (z3:quad32) : prop0 = length data == 6 /\ z3 == reverse_bytes_quad32 (index data 5) /\ buffer128_read scratch_b 3 heap3 == reverse_bytes_quad32 (index data 4) /\ buffer128_read scratch_b 4 heap3 == reverse_bytes_quad32 (index data 3) /\ buffer128_read scratch_b 5 heap3 == reverse_bytes_quad32 (index data 2) /\ buffer128_read scratch_b 6 heap3 == reverse_bytes_quad32 (index data 1) /\ buffer128_read scratch_b 7 heap3 == reverse_bytes_quad32 (index data 0) //-- finish_aes_encrypt_le val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32) -> Lemma (requires (Vale.AES.AES_s.is_aes_key_LE alg key)) (ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key))) let finish_aes_encrypt_le alg input_LE key = Vale.AES.AES_s.aes_encrypt_LE_reveal (); Vale.AES.AES_s.eval_cipher_reveal (); () //-- let va_subscript_FStar__Seq__Base__seq = Seq.index #reset-options "--z3rlimit 30" //-- Load_one_msb val va_code_Load_one_msb : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Load_one_msb () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ())))) val va_codegen_success_Load_one_msb : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Load_one_msb () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_Load_one_msb ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "*** PRECONDITION NOT MET AT line 145 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 146 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) == 72057594037927936) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 147 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 148 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (()))))))) val va_lemma_Load_one_msb : va_b0:va_code -> va_s0:va_state -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\ sse_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))) [@"opaque_to_smt"] let va_lemma_Load_one_msb va_b0 va_s0 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Load_one_msb va_mods in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Load_one_msb ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 138 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 143 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (()))) val va_wpProof_Load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load_one_msb va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Load_one_msb va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load_one_msb (va_code_Load_one_msb ()) va_s0 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Load_one_msb () : (va_quickCode unit (va_code_Load_one_msb ())) = (va_QProc (va_code_Load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_wp_Load_one_msb va_wpProof_Load_one_msb) //-- //-- Ctr32_ghash_6_prelude val va_code_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Ctr32_ghash_6_prelude alg = (va_Block (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CNil ())))))))))))) val va_codegen_success_Ctr32_ghash_6_prelude : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Ctr32_ghash_6_prelude alg = (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_ttrue ()))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Ctr32_ghash_6_prelude (va_mods:va_mods_t) (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 211 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 212 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 213 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.Types.lemma_quad32_xor ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 214 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 215 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg44:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg43:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg42:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 215 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg42 va_arg43 va_arg44 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 216 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg41:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg39:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 216 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg39 va_arg40 va_arg41 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 217 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg37:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg36:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 217 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg36 va_arg37 va_arg38 3) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 218 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg33:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 218 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg33 va_arg34 va_arg35 4) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 219 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg31:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg30:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 219 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg30 va_arg31 va_arg32 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 220 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 221 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QEmpty (()))))))))))))))))))) val va_lemma_Ctr32_ghash_6_prelude : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Ctr32_ghash_6_prelude alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))) [@"opaque_to_smt"] let va_lemma_Ctr32_ghash_6_prelude va_b0 va_s0 alg scratch_b key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Ctr32_ghash_6_prelude va_mods alg scratch_b key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Ctr32_ghash_6_prelude alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 151 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 194 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1 "* POSTCONDITION NOT MET AT line 196 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 197 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 199 column 83 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 200 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label va_range1 "* POSTCONDITION NOT MET AT line 201 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 202 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 203 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 204 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 205 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 207 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 208 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_r11:nat64) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR11 va_x_r11 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 1 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (va_get_xmm 15 va_sM) /\ (let counter = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in (counter + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) /\ (counter + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) /\ (counter + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) /\ (counter + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) /\ (counter + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) ==> va_k va_sM (()))) val va_wpProof_Ctr32_ghash_6_prelude : alg:algorithm -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_Ctr32_ghash_6_prelude (va_code_Ctr32_ghash_6_prelude alg) va_s0 alg scratch_b key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR11 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Ctr32_ghash_6_prelude (alg:algorithm) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_Ctr32_ghash_6_prelude alg)) = (va_QProc (va_code_Ctr32_ghash_6_prelude alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_reg64 rR11; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_mem]) (va_wp_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig) (va_wpProof_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b ctr_orig)) //-- //-- Handle_ctr32_2 val va_code_Handle_ctr32_2 : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Handle_ctr32_2 () = (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_Handle_ctr32_2 : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Handle_ctr32_2 () = (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Handle_ctr32_2 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 253 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 258 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 260 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 262 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 263 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 278 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 279 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (()))))))))))))))))))))))) val va_lemma_Handle_ctr32_2 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Handle_ctr32_2 ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))) [@"opaque_to_smt"] let va_lemma_Handle_ctr32_2 va_b0 va_s0 ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok] in let va_qc = va_qcode_Handle_ctr32_2 va_mods ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32_2 ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 224 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 246 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 247 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 248 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 249 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 250 column 77 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 251 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Handle_ctr32_2 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR11 va_x_r11 va_s0)))))))))) in va_get_ok va_sM /\ (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (va_get_xmm 4 va_sM) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (va_get_xmm 4 va_sM) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (va_get_xmm 4 va_sM) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (va_get_xmm 4 va_sM) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (va_get_xmm 4 va_sM) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) ==> va_k va_sM (()))) val va_wpProof_Handle_ctr32_2 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Handle_ctr32_2 ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Handle_ctr32_2 ctr_BE va_s0 va_k = let (va_sM, va_f0) = va_lemma_Handle_ctr32_2 (va_code_Handle_ctr32_2 ()) va_s0 ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Handle_ctr32_2 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32_2 ())) = (va_QProc (va_code_Handle_ctr32_2 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32_2 ctr_BE) (va_wpProof_Handle_ctr32_2 ctr_BE)) //-- //-- Loop6x_decrypt #push-options "--z3rlimit 300" val va_code_Loop6x_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_decrypt alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_save_output ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))) (va_Block (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil ())))))) (va_CNil ())))))))))))))) val va_codegen_success_Loop6x_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_decrypt alg = (va_pbool_and (va_codegen_success_Loop6x_partial alg) (va_pbool_and (va_codegen_success_Loop6x_final alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_pbool_and (va_codegen_success_Loop6x_save_output ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_codegen_success_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)))))) (va_ttrue ())))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (prev:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) in let (y_prev:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 prev) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 449 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 450 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 data (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 451 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6)) (FStar.Seq.Base.slice #quad32 plain_quads (count `op_Multiply` 6) (count `op_Multiply` 6 + 6))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 453 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 454 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 455 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s))) < 128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 456 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2_s.degree prev < 128) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 457 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Bits.lemma_of_to_quad32 prev) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 459 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_partial alg h_LE y_prev data count (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count)) iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE) (fun (va_s:va_state) (init:quad32_6) -> let (eventual_Xi:Vale.Math.Poly2_s.poly) = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s)) in va_qAssert va_range1 "* PRECONDITION NOT MET AT line 463 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (let (ctrs:(six_of Vale.Def.Types_s.quad32)) = make_six_of #Vale.Def.Types_s.quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE i)) in let (plains:(six_of Vale.X64.Decls.quad32)) = make_six_of #Vale.X64.Decls.quad32 (fun (i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_s)) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 468 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b (Vale.AES.GCTR.inc32lite ctr_BE 6) init ctrs plains (Vale.X64.Decls.buffer128_read in0_b (va_if (va_get_reg64 rRdx va_s > 6) (fun _ -> count + 1) (fun _ -> count) `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 471 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 472 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 474 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> let (y_new:quad32) = Vale.AES.GHash.ghash_incremental0 h_LE y_prev data in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> let (va_arg104:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6) in let (va_arg102:Vale.Def.Types_s.quad32) = y_new in let (va_arg101:Vale.Def.Types_s.quad32) = y_orig in let (va_arg100:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 479 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg100 va_arg101 y_prev va_arg102 va_arg103 va_arg104) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 480 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 (count `op_Multiply` 6) /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 481 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #quad32 (FStar.Seq.Base.append #quad32 (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) data) (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 483 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 486 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 488 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_save_output count out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 492 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg99:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg98:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg97:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg95:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg94:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg93:Vale.Def.Types_s.nat32) = bound in let (va_arg92:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 497 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg92 va_arg93 va_arg94 va_arg95 va_arg96 va_arg97 va_arg98 va_arg99) (let (va_arg91:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg90:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg88:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg87:Prims.nat) = bound in let (va_arg86:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 499 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg86 va_arg87 va_arg88 va_arg89 va_arg90 va_arg91) (let (va_arg85:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s) in let (va_arg84:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)) in let (va_arg83:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 501 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_add_manip va_arg83 va_arg84 va_arg85) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 507 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) (va_QEmpty (())))))))))) (qblock va_mods (fun (va_s:va_state) -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 511 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 512 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 513 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (fun (va_s:va_state) _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 514 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 515 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 516 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GHash.ghash_incremental h_LE y_prev data)) (va_QEmpty (()))))))))))) (fun (va_s:va_state) va_g -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 518 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (va_QEmpty ((y_new))))))))))))))))))))))))))))) val va_lemma_Loop6x_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == (if (va_get_reg64 rRdx va_sM > 6) then (va_get_reg64 rR14 va_s0 + 96) else va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_decrypt va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_decrypt va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 290 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 388 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 389 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 390 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 391 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 392 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 397 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 398 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 399 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 400 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 402 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 405 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 407 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 408 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 409 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 410 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 411 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 412 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 414 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 418 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 420 column 93 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 421 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 422 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 423 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 424 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 425 column 35 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 427 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 428 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 429 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 430 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 431 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 432 column 177 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 435 column 108 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 438 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 440 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 441 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 443 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ va_get_reg64 rRdx va_s0 >= 6 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count + 1) `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b count (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (count `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ ((va_get_reg64 rRdx va_sM == 0 ==> va_get_mem_heaplet 6 va_sM == va_get_mem_heaplet 6 va_s0) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in_b) ((count + 1) `op_Multiply` 6) ((count + 1) `op_Multiply` 6)) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_s0 - 6 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rR14 va_sM == va_if (va_get_reg64 rRdx va_sM > 6) (fun _ -> va_get_reg64 rR14 va_s0 + 96) (fun _ -> va_get_reg64 rR14 va_s0) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 0 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 7)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 5 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 8)) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 6 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 9)) /\ (va_get_reg64 rRdx va_sM == 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 3 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 11)) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) plain_quads alg key_words ctr_BE_orig count) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 10 va_sM == va_get_xmm 0 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 11 va_sM == va_get_xmm 5 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 12 va_sM == va_get_xmm 6 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 10))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 14 va_sM == va_get_xmm 3 va_sM) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 0))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 ((count + 1) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_new == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs scratch_b (count + 1) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_sM))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_decrypt (va_code_Loop6x_decrypt alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_decrypt alg)) = (va_QProc (va_code_Loop6x_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_decrypt alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_decrypt_body0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_body0 alg = (va_Block (va_CCons (va_code_Loop6x_decrypt alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_body0 alg = (va_pbool_and (va_codegen_success_Loop6x_decrypt alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 733 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_decrypt alg h_LE y_orig y_cur iter iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 735 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_decrypt_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_body0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_body0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 729 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_body0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_body0 (va_code_Loop6x_loop_decrypt_body0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_body0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_body0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_body0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt_while0 #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_decrypt_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_decrypt_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_body0 va_old alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` (va_get_reg64 rRdx va_s - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b iter (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #quad32 plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_decrypt_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt_while0 va_b0 va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_decrypt_while0 va_mods va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 653 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 655 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 658 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 659 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 661 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 664 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 666 column 121 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 669 column 114 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 671 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 672 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 674 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 675 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 676 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 677 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_in_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 679 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 680 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 681 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 682 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 683 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 685 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 686 column 81 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 687 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 688 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 691 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 692 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 695 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 696 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 697 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 698 column 85 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 699 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 701 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 702 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 705 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 706 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 707 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 708 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 709 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 710 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 711 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 712 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 713 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 715 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 717 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 718 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 719 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 720 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 721 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 724 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 727 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 728 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (va_in_iter + 1)) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b va_in_iter (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_in_iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (va_in_iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((iter + 1) `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` (iter + 1)) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM == 6 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_in_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` (va_get_reg64 rRdx va_sM - 6) < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b iter (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (iter `op_Multiply` 6 <= FStar.Seq.Base.length #quad32 va_in_plain_quads ==> y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #quad32 va_in_plain_quads 0 (iter `op_Multiply` 6))) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_get_reg64 rRdx va_old + 6 < pow2_32) /\ iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_decrypt_while0 : va_old:va_state -> alg:algorithm -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_decrypt_while0 (va_code_Loop6x_loop_decrypt_while0 alg) va_s0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt_while0 (va_old:va_state) (alg:algorithm) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_decrypt_while0 alg)) = (va_QProc (va_code_Loop6x_loop_decrypt_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_decrypt_while0 va_old alg va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_decrypt #push-options "--z3rlimit 700" val va_code_Loop6x_loop_decrypt : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_decrypt alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CNil ()))) (va_Block (va_CNil ()))) (va_CCons (va_code_Loop6x_loop_decrypt_while0 alg) (va_CNil ())))) val va_codegen_success_Loop6x_loop_decrypt : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_decrypt alg = (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt_while0 alg) (va_ttrue ()))) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_decrypt (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop_decrypt alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in let (plain_quads:(seq quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg44:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg42:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg40:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 645 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg40 va_arg41 va_arg42 va_arg43 va_arg44) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 648 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 6)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 649 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 651 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt_while0 va_old_s alg ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 738 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))))) val va_lemma_Loop6x_loop_decrypt : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_decrypt alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_decrypt va_b0 va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop_decrypt va_mods alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_decrypt alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 521 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 614 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 615 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 616 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 621 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 622 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 625 column 135 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 627 column 149 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 628 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 629 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 630 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 631 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 632 column 153 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 635 column 89 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 636 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 639 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ (6 <= va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b 6 (va_get_reg64 rRdx va_s0 - 6) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b 0 (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == in_b /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` (va_get_reg64 rRdx va_s0 - 6) < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b 0 (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == y_orig /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5))) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ l_and (va_get_reg64 rRdx va_s0 - 1 > 0) (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) 0 (va_get_reg64 rRdx va_s0 - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ l_and (va_get_reg64 rRdx va_s0 - 6 >= 0) (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0 - 6) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) 0 (va_get_reg64 rRdx va_s0)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop_decrypt : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop_decrypt (va_code_Loop6x_loop_decrypt alg) va_s0 alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_decrypt (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop_decrypt alg)) = (va_QProc (va_code_Loop6x_loop_decrypt alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop_decrypt alg h_LE y_orig y_prev iv_b in0_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- Loop6x_loop_body0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_body0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_body0 alg = (va_Block (va_CCons (va_code_Loop6x alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))) val va_codegen_success_Loop6x_loop_body0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_body0 alg = (va_pbool_and (va_codegen_success_Loop6x alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_body0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 959 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x alg h_LE y_orig y_cur (count + iter) iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr) (fun (va_s:va_state) (y_cur:quad32) -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 961 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (iter + 1 >= 0) (fun _ -> let (iter:nat) = iter + 1 in let (ctr:quad32) = Vale.AES.GCTR_s.inc32 ctr 6 in va_QEmpty ((ctr, iter, y_cur)))))) val va_lemma_Loop6x_loop_body0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_body0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0)) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_body0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_body0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_body0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 955 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ va_get_reg64 rRdx va_s0 > 0 /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ precedes_wrap (va_get_reg64 rRdx va_sM) (va_get_reg64 rRdx va_s0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_body0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_body0 (va_code_Loop6x_loop_body0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_body0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_body0 alg)) = (va_QProc (va_code_Loop6x_loop_body0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_body0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop_while0 #push-options "--z3rlimit 750" val va_code_Loop6x_loop_while0 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop_while0 alg = (va_Block (va_CCons (va_While (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_Loop6x_loop_body0 alg) (va_CNil ())))) (va_CNil ()))) val va_codegen_success_Loop6x_loop_while0 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop_while0 alg = (va_pbool_and (va_codegen_success_Loop6x_loop_body0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop_while0 (va_mods:va_mods_t) (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (count:nat) = va_in_count in let (ctr_BE_orig:quad32) = va_in_ctr_BE_orig in let (h_LE:quad32) = va_in_h_LE in let (hkeys_b:buffer128) = va_in_hkeys_b in let (in0_b:buffer128) = va_in_in0_b in let (in_b:buffer128) = va_in_in_b in let (iv_b:buffer128) = va_in_iv_b in let (key_words:(seq nat32)) = va_in_key_words in let (keys_b:buffer128) = va_in_keys_b in let (out_b:buffer128) = va_in_out_b in let (plain_quads:(seq quad32)) = va_in_plain_quads in let (round_keys:(seq quad32)) = va_in_round_keys in let (scratch_b:buffer128) = va_in_scratch_b in let (y_orig:quad32) = va_in_y_orig in let (ctr:quad32) = va_in_ctr in let (iter:nat) = va_in_iter in let (y_cur:quad32) = va_in_y_cur in va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qWhile va_mods (Cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (fun va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_body0 va_old alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_QEmpty ((ctr, iter, y_cur))))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_ok va_s /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_s == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_s == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_s == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s) (va_get_reg64 rR8 va_s) iv_b 1 (va_get_mem_layout va_s) Public /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rR14 va_s) in0_b ((count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRdi va_s) in_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s) (va_get_reg64 rRsi va_s) out_b (count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_s) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s) (va_get_reg64 rRbp va_s) scratch_b 9 (va_get_mem_layout va_s) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s) (va_get_reg64 rR9 va_s - 32) hkeys_b 8 (va_get_mem_layout va_s) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b) >= 6 /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b) (6 `op_Multiply` count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) in_b))) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rR14 va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRsi va_s + 16 `op_Multiply` va_get_reg64 rRdx va_s < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s) 0 0 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s) (va_get_mem_heaplet 0 va_s) (va_get_mem_layout va_s) /\ va_get_xmm 15 va_s == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s > 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (va_get_xmm 7 va_s)) /\ (va_get_reg64 rRdx va_s == 0 ==> scratch_reqs scratch_b (count + iter - 2) (va_get_mem_heaplet 3 va_s) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in0_b) 0 ((count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))))) /\ (va_get_reg64 rRdx va_s == 0 ==> va_get_xmm 8 va_s == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= count /\ va_get_reg64 rRdx va_s `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_reg64 rRdx va_s >= 6) /\ ctr == Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_s == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_s == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s > 0 ==> va_get_xmm 9 va_s == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_s)) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 10 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 11 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 12 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 13 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_s > 0 ==> (va_get_reg64 rRbx va_s + 6 < 256 ==> va_get_xmm 14 va_s == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s) (va_get_xmm 10 va_s) (va_get_xmm 11 va_s) (va_get_xmm 12 va_s) (va_get_xmm 13 va_s) (va_get_xmm 14 va_s) plain_quads alg key_words ctr_BE_orig (count + iter - 1)) /\ (va_get_reg64 rRdx va_s > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` iter) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig) /\ (va_get_reg64 rRdx va_s == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + 6 `op_Multiply` (iter - 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) key_words ctr_BE_orig)) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in va_get_reg64 rRdx va_s) ((ctr, iter, y_cur))) (fun (va_s:va_state) va_g -> let (ctr:quad32) = let (ctr, iter, y_cur) = va_g in ctr in let (iter:nat) = let (ctr, iter, y_cur) = va_g in iter in let (y_cur:quad32) = let (ctr, iter, y_cur) = va_g in y_cur in let va_g = (ctr, iter, y_cur) in let ((ctr:quad32), (iter:nat), (y_cur:quad32)) = va_g in va_QEmpty ((ctr, iter, y_cur))))) val va_lemma_Loop6x_loop_while0 : va_b0:va_code -> va_s0:va_state -> va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> Ghost (va_state & va_fuel & quad32 & nat & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop_while0 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig))) (ensures (fun (va_sM, va_fM, ctr, iter, y_cur) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) /\ va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop_while0 va_b0 va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur = let va_old = va_expand_state va_old in let (va_mods:va_mods_t) = [va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags] in let va_qc = va_qcode_Loop6x_loop_while0 va_mods va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop_while0 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let (ctr, iter, y_cur) = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 878 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (sse_enabled /\ movbe_enabled) /\ label va_range1 "* POSTCONDITION NOT MET AT line 880 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 882 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 883 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 884 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter) /\ label va_range1 "* POSTCONDITION NOT MET AT line 886 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 889 column 69 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public) /\ label va_range1 "* POSTCONDITION NOT MET AT line 891 column 127 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 892 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 893 column 123 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 895 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 896 column 79 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret) /\ label va_range1 "* POSTCONDITION NOT MET AT line 897 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 898 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_in0_b == va_in_out_b) /\ label va_range1 "* POSTCONDITION NOT MET AT line 900 column 48 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 901 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 902 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 903 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 904 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ label va_range1 "* POSTCONDITION NOT MET AT line 906 column 76 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 907 column 95 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 908 column 131 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 909 column 74 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 912 column 87 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 913 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 916 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" pclmulqdq_enabled /\ label va_range1 "* POSTCONDITION NOT MET AT line 917 column 71 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 918 column 78 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 920 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count + iter - 2 >= 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 921 column 103 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 922 column 137 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 924 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 926 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 927 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ label va_range1 "* POSTCONDITION NOT MET AT line 930 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (2 <= va_in_count) /\ label va_range1 "* POSTCONDITION NOT MET AT line 931 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 932 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 933 column 62 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 934 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32) /\ label va_range1 "* POSTCONDITION NOT MET AT line 935 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ label va_range1 "* POSTCONDITION NOT MET AT line 936 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 937 column 45 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label va_range1 "* POSTCONDITION NOT MET AT line 938 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 939 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 941 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 943 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 944 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 945 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 946 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 947 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 950 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 953 column 117 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 954 column 128 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (~(va_get_reg64 rRdx va_sM > 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let (ctr, iter, y_cur) = va_g in (va_sM, va_fM, ctr, iter, y_cur) [@ va_qattr] let va_wp_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) (va_s0:va_state) (va_k:(va_state -> (quad32 & nat & quad32) -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_s0 == va_get_reg64 rRdx va_old - 6 `op_Multiply` va_in_iter /\ va_get_reg64 rR14 va_s0 == va_get_reg64 rR14 va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRdi va_s0 == va_get_reg64 rRdi va_old + 96 `op_Multiply` va_in_iter /\ va_get_reg64 rRsi va_s0 == va_get_reg64 rRsi va_old + 96 `op_Multiply` va_in_iter /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) va_in_iv_b 1 (va_get_mem_layout va_s0) Public /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) va_in_in_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) va_in_out_b (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - va_in_iter `op_Multiply` 6) (va_get_mem_layout va_s0) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) va_in_scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) va_in_hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_s0) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_s0) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_s0) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + va_in_iter - 2 >= 0 /\ (va_get_reg64 rRdx va_s0 > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (va_get_xmm 7 va_s0)) /\ (va_get_reg64 rRdx va_s0 == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + va_in_iter - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_s0))) /\ va_in_y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_in0_b) 0 ((va_in_count + va_in_iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_in_y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_s0)))))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> va_get_xmm 8 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 va_in_y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_s0 < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + va_in_iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_reg64 rRdx va_s0 >= 6) /\ va_in_ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + va_in_iter `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0) /\ va_get_reg64 rRbx va_s0 == va_in_ctr.lo0 `op_Modulus` 256 /\ (va_get_reg64 rRdx va_s0 > 0 ==> va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 0)) (va_get_xmm 15 va_s0)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 1))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 2))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 3))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 4))) /\ (va_get_reg64 rRdx va_s0 > 0 ==> (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite va_in_ctr 5))) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_s0) (va_get_xmm 10 va_s0) (va_get_xmm 11 va_s0) (va_get_xmm 12 va_s0) (va_get_xmm 13 va_s0) (va_get_xmm 14 va_s0) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + va_in_iter - 1)) /\ (va_get_reg64 rRdx va_s0 > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` va_in_iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_s0 == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (va_in_iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (forall (va_x_efl:Vale.X64.Flags.t) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_heap6:vale_heap) (va_x_mem:vale_heap) (va_x_ok:bool) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_rbx:nat64) (va_x_rdi:nat64) (va_x_rdx:nat64) (va_x_rsi:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (ctr:quad32) (iter:nat) (y_cur:quad32) . let va_sM = va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRdi va_x_rdi (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_ok va_x_ok (va_upd_mem va_x_mem (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_flags va_x_efl va_s0))))))))))))))))))))))))))))) in va_get_ok va_sM /\ (sse_enabled /\ movbe_enabled) /\ va_get_reg64 rRdx va_sM == va_get_reg64 rRdx va_old - 6 `op_Multiply` iter /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_old + 96 `op_Multiply` iter /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_old + 96 `op_Multiply` iter /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_sM) (va_get_reg64 rR8 va_sM) va_in_iv_b 1 (va_get_mem_layout va_sM) Public /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rR14 va_sM) va_in_in0_b ((va_in_count - 1) `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRdi va_sM) va_in_in_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_sM) (va_get_reg64 rRsi va_sM) va_in_out_b (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6) (va_get_reg64 rRdx va_old - iter `op_Multiply` 6) (va_get_mem_layout va_sM) Secret) /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_sM) (va_get_reg64 rRbp va_sM) va_in_scratch_b 9 (va_get_mem_layout va_sM) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_sM) (va_get_reg64 rR9 va_sM - 32) va_in_hkeys_b 8 (va_get_mem_layout va_sM) Secret /\ (Vale.X64.Decls.buffers_disjoint128 va_in_in_b va_in_out_b \/ va_in_in_b == va_in_out_b) /\ va_in_in0_b == va_in_out_b /\ FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b) >= 6 /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.partial_seq_agreement va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in_b) (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old) va_in_in_b))) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rR14 va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRsi va_sM + 16 `op_Multiply` va_get_reg64 rRdx va_sM < pow2_64) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_scratch_b (va_get_mem_heaplet 3 va_old) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 5) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_reg64 rRdx va_old >= 6 /\ Vale.X64.Decls.buffer_modifies_specific128 va_in_out_b (va_get_mem_heaplet 6 va_old) (va_get_mem_heaplet 6 va_sM) (va_in_count `op_Multiply` 6) (va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old - 1)) /\ Vale.X64.Decls.modifies_buffer_specific128 va_in_iv_b (va_get_mem_heaplet 2 va_old) (va_get_mem_heaplet 2 va_sM) 0 0 /\ aes_reqs_offset alg va_in_key_words va_in_round_keys va_in_keys_b (va_get_reg64 rRcx va_sM) (va_get_mem_heaplet 0 va_sM) (va_get_mem_layout va_sM) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 va_in_round_keys 0 /\ pclmulqdq_enabled /\ va_in_h_LE == Vale.AES.AES_s.aes_encrypt_LE alg va_in_key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_sM) va_in_hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 va_in_h_LE) /\ va_in_count + iter - 2 >= 0 /\ (va_get_reg64 rRdx va_sM > 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (va_get_xmm 7 va_sM)) /\ (va_get_reg64 rRdx va_sM == 0 ==> scratch_reqs va_in_scratch_b (va_in_count + iter - 2) (va_get_mem_heaplet 3 va_sM) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) (Vale.X64.Decls.buffer128_read va_in_scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ y_cur == Vale.AES.GHash.ghash_incremental0 va_in_h_LE va_in_y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_in0_b) 0 ((va_in_count + iter - 2) `op_Multiply` 6)) /\ (va_get_reg64 rRdx va_sM > 0 ==> y_cur == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read va_in_scratch_b 1 (va_get_mem_heaplet 3 va_sM)))))) /\ (va_get_reg64 rRdx va_sM == 0 ==> va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_cur) /\ 2 <= va_in_count /\ va_get_reg64 rRdx va_sM `op_Modulus` 6 == 0 /\ va_get_reg64 rRdx va_sM < pow2_32 /\ (6 <= va_get_reg64 rRdx va_old /\ va_in_count `op_Multiply` 6 + va_get_reg64 rRdx va_old + 6 < pow2_32) /\ va_in_count `op_Multiply` 6 + iter `op_Multiply` 6 + 6 < pow2_32 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_reg64 rRdx va_sM >= 6) /\ ctr == Vale.AES.GCTR.inc32lite va_in_ctr_BE_orig (6 `op_Multiply` va_in_count + iter `op_Multiply` 6) /\ va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr `op_Modulus` 256 /\ (va_get_reg64 rRdx va_sM > 0 ==> va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 0)) (va_get_xmm 15 va_sM)) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 1))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 2))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 3))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 4))) /\ (va_get_reg64 rRdx va_sM > 0 ==> (va_get_reg64 rRbx va_sM + 6 < 256 ==> va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr 5))) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_registers (va_get_xmm 9 va_sM) (va_get_xmm 10 va_sM) (va_get_xmm 11 va_sM) (va_get_xmm 12 va_sM) (va_get_xmm 13 va_sM) (va_get_xmm 14 va_sM) va_in_plain_quads alg va_in_key_words va_in_ctr_BE_orig (va_in_count + iter - 1)) /\ (va_get_reg64 rRdx va_sM > 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` iter) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ (va_get_reg64 rRdx va_sM == 0 ==> Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` va_in_count + 6 `op_Multiply` (iter - 1)) va_in_plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) va_in_out_b) va_in_key_words va_in_ctr_BE_orig) /\ ~(va_get_reg64 rRdx va_sM > 0) ==> va_k va_sM ((ctr, iter, y_cur)))) val va_wpProof_Loop6x_loop_while0 : va_old:va_state -> alg:algorithm -> va_in_count:nat -> va_in_ctr_BE_orig:quad32 -> va_in_h_LE:quad32 -> va_in_hkeys_b:buffer128 -> va_in_in0_b:buffer128 -> va_in_in_b:buffer128 -> va_in_iv_b:buffer128 -> va_in_key_words:(seq nat32) -> va_in_keys_b:buffer128 -> va_in_out_b:buffer128 -> va_in_plain_quads:(seq quad32) -> va_in_round_keys:(seq quad32) -> va_in_scratch_b:buffer128 -> va_in_y_orig:quad32 -> va_in_ctr:quad32 -> va_in_iter:nat -> va_in_y_cur:quad32 -> va_s0:va_state -> va_k:(va_state -> (quad32 & nat & quad32) -> Type0) -> Ghost (va_state & va_fuel & (quad32 & nat & quad32)) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur va_s0 va_k = let (va_sM, va_f0, ctr, iter, y_cur) = va_lemma_Loop6x_loop_while0 (va_code_Loop6x_loop_while0 alg) va_s0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM (va_update_mem va_sM (va_update_mem_heaplet 6 va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_flags va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) va_sM va_s0; let va_g = (ctr, iter, y_cur) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop_while0 (va_old:va_state) (alg:algorithm) (va_in_count:nat) (va_in_ctr_BE_orig:quad32) (va_in_h_LE:quad32) (va_in_hkeys_b:buffer128) (va_in_in0_b:buffer128) (va_in_in_b:buffer128) (va_in_iv_b:buffer128) (va_in_key_words:(seq nat32)) (va_in_keys_b:buffer128) (va_in_out_b:buffer128) (va_in_plain_quads:(seq quad32)) (va_in_round_keys:(seq quad32)) (va_in_scratch_b:buffer128) (va_in_y_orig:quad32) (va_in_ctr:quad32) (va_in_iter:nat) (va_in_y_cur:quad32) : (va_quickCode (quad32 & nat & quad32) (va_code_Loop6x_loop_while0 alg)) = (va_QProc (va_code_Loop6x_loop_while0 alg) ([va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rRsi; va_Mod_reg64 rRdx; va_Mod_reg64 rRdi; va_Mod_reg64 rRbx; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_ok; va_Mod_mem; va_Mod_mem_heaplet 6; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_flags]) (va_wp_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur) (va_wpProof_Loop6x_loop_while0 va_old alg va_in_count va_in_ctr_BE_orig va_in_h_LE va_in_hkeys_b va_in_in0_b va_in_in_b va_in_iv_b va_in_key_words va_in_keys_b va_in_out_b va_in_plain_quads va_in_round_keys va_in_scratch_b va_in_y_orig va_in_ctr va_in_iter va_in_y_cur)) #pop-options //-- //-- Loop6x_loop #push-options "--z3rlimit 750" val va_code_Loop6x_loop : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Loop6x_loop alg = (va_Block (va_CCons (va_code_Loop6x_loop_while0 alg) (va_CNil ()))) val va_codegen_success_Loop6x_loop : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Loop6x_loop alg = (va_pbool_and (va_codegen_success_Loop6x_loop_while0 alg) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_Loop6x_loop (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode (quad32) (va_code_Loop6x_loop alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let (iter:nat) = 0 in let (ctr:quad32) = ctr_BE in let (y_cur:quad32) = y_prev in va_QBind va_range1 "* PRECONDITION NOT MET AT line 876 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_while0 va_old_s alg count ctr_BE_orig h_LE hkeys_b in0_b in_b iv_b key_words keys_b out_b plain_quads round_keys scratch_b y_orig ctr iter y_cur) (fun (va_s:va_state) va_g -> let (ctr, iter, y_cur) = va_g in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 964 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_registers_reveal ()) (let (y_new:quad32) = y_cur in va_QEmpty ((y_new)))))) val va_lemma_Loop6x_loop : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> Ghost (va_state & va_fuel & quad32) (requires (va_require_total va_b0 (va_code_Loop6x_loop alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM, y_new) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_Loop6x_loop va_b0 va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Loop6x_loop va_mods alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_loop alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let y_new = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 742 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 842 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 843 column 97 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 844 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 849 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 850 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 851 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 854 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ label va_range1 "* POSTCONDITION NOT MET AT line 856 column 167 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 857 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 858 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 859 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 860 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 861 column 171 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5)))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 864 column 113 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 865 column 42 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new) /\ label va_range1 "* POSTCONDITION NOT MET AT line 867 column 163 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 870 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; let y_new = va_g in (va_sM, va_fM, y_new) [@ va_qattr] let va_wp_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> quad32 -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ count >= 2 /\ (6 <= va_get_reg64 rRdx va_s0 /\ count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 + 6 < pow2_32) /\ va_get_reg64 rRdx va_s0 `op_Modulus` 6 == 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8 va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b ((count - 1) `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) (va_get_reg64 rRdx va_s0) (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 0 va_s0) (va_get_reg64 rR9 va_s0 - 32) hkeys_b 8 (va_get_mem_layout va_s0) Secret /\ (Vale.X64.Decls.buffers_disjoint128 in_b out_b \/ in_b == out_b) /\ in0_b == out_b /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (FStar.Seq.Base.length #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 0 /\ pclmulqdq_enabled /\ h_LE == Vale.AES.AES_s.aes_encrypt_LE alg key_words (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ Vale.AES.GHash.hkeys_reqs_priv (Vale.X64.Decls.s128 (va_get_mem_heaplet 0 va_s0) hkeys_b) (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) /\ scratch_reqs scratch_b (count - 2) (va_get_mem_heaplet 3 va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) (va_get_xmm 7 va_s0) /\ y_prev == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in0_b) 0 ((count - 2) `op_Multiply` 6)) /\ y_prev == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.Math.Poly2.Bits_s.to_quad32 (add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s0))))) /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 10 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 11 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 12 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 13 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) /\ (va_get_reg64 rRbx va_s0 + 6 < 256 ==> va_get_xmm 14 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rdx:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_r14:nat64) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_heap2:vale_heap) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) (y_new:quad32) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_mem_heaplet 2 va_x_heap2 (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR14 va_x_r14 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRdx va_x_rdx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0)))))))))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6) (count `op_Multiply` 6 + va_get_reg64 rRdx va_s0 - 1) /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ va_get_reg64 rR14 va_sM == va_get_reg64 rR14 va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 16 `op_Multiply` va_get_reg64 rRdx va_s0 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 0) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6))) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 1))) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 2))) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 3))) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 4))) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor (Vale.X64.Decls.buffer128_read in_b (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5) (va_get_mem_heaplet 6 va_s0)) (Vale.AES.GCTR.aes_encrypt_BE alg key_words (Vale.AES.GCTR.inc32lite ctr_BE_orig (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6 + 5))) /\ y_new == Vale.AES.GHash.ghash_incremental0 h_LE y_orig (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) 0 (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 y_new /\ scratch_reqs_simple scratch_b (va_get_mem_heaplet 3 va_sM) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) in0_b) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 12) (6 `op_Multiply` count + va_get_reg64 rRdx va_s0 - 6)) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE (va_get_reg64 rRdx va_s0))) ==> va_k va_sM ((y_new)))) val va_wpProof_Loop6x_loop : alg:algorithm -> h_LE:quad32 -> y_orig:quad32 -> y_prev:quad32 -> count:nat -> iv_b:buffer128 -> in0_b:buffer128 -> in_b:buffer128 -> out_b:buffer128 -> scratch_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE_orig:quad32 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> quad32 -> Type0) -> Ghost (va_state & va_fuel & quad32) (requires (va_t_require va_s0 /\ va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE va_s0 va_k = let (va_sM, va_f0, y_new) = va_lemma_Loop6x_loop (va_code_Loop6x_loop alg) va_s0 alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = (y_new) in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Loop6x_loop (alg:algorithm) (h_LE:quad32) (y_orig:quad32) (y_prev:quad32) (count:nat) (iv_b:buffer128) (in0_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE_orig:quad32) (ctr_BE:quad32) : (va_quickCode quad32 (va_code_Loop6x_loop alg)) = (va_QProc (va_code_Loop6x_loop alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE) (va_wpProof_Loop6x_loop alg h_LE y_orig y_prev count iv_b in0_b in_b out_b scratch_b plain_quads key_words round_keys keys_b hkeys_b ctr_BE_orig ctr_BE)) #pop-options //-- //-- AESNI_ctr32_6x_preamble #push-options "--z3rlimit 80" #restart-solver val va_code_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_preamble alg = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_CCons (va_code_Load_one_msb ()) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_CCons (va_code_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons (va_IfElse (va_cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_CNil ()))))))))))))) (va_Block (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CCons (va_code_Handle_ctr32_2 ()) (va_CNil ()))))) (va_CNil ())))))))))) val va_codegen_success_AESNI_ctr32_6x_preamble : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_preamble alg = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and (va_codegen_success_Load_one_msb ()) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret) (va_pbool_and (va_codegen_success_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_pbool_and (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_codegen_success_Handle_ctr32_2 ()))))))))))))) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_preamble (va_mods:va_mods_t) (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1024 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1025 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load_one_msb ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1026 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 - 128) Secret keys_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1029 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov64 (va_op_dst_opr64_reg64 rR12) (va_op_opr64_reg64 rRcx)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1030 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rR12) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1032 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1034 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1035 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_lt (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun (va_s:va_state) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1036 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1037 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg81 va_arg82 va_arg83 1) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1038 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 10) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg79:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg78:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1039 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg78 va_arg79 va_arg80 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1040 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1041 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 11) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg77:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg75:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1042 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg75 va_arg76 va_arg77 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1043 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1044 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 12) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg74:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg73:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg72:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1045 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg72 va_arg73 va_arg74 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1046 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1047 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg70:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg69:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1048 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg69 va_arg70 va_arg71 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1049 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1050 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 14) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let (va_arg67:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg66:Vale.Def.Types_s.quad32) = Vale.AES.GCTR.inc32lite ctr_orig 0 in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1051 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg66 va_arg67 va_arg68 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1052 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 4)) (va_QEmpty (())))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1054 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1055 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Handle_ctr32_2 ctr_orig) (va_QEmpty (())))))) (fun (va_s:va_state) va_g -> let (va_arg65:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg64:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1058 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg64 va_arg65) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1059 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg62 va_arg63) (let (va_arg61:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1060 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg60 va_arg61) (let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg58:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1061 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg58 va_arg59) (let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg56:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1062 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg56 va_arg57) (let (va_arg55:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1063 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg54 va_arg55) (va_QEmpty (()))))))))))))))))) val va_lemma_AESNI_ctr32_6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_preamble va_b0 va_s0 alg key_words round_keys keys_b ctr_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_preamble va_mods alg key_words round_keys keys_b ctr_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_preamble alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 968 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1010 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1011 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1013 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1014 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1015 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1016 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1017 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1018 column 125 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1020 column 59 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1022 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx va_s0))))))))))))))) in va_get_ok va_sM /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256 /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_orig 6) `op_Modulus` 256 /\ va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds (Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0)) round_keys 0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_orig 6) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 1) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_preamble : alg:algorithm -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_preamble (va_code_AESNI_ctr32_6x_preamble alg) va_s0 alg key_words round_keys keys_b ctr_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0)))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_preamble (alg:algorithm) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_preamble alg)) = (va_QProc (va_code_AESNI_ctr32_6x_preamble alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) (va_wp_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig) (va_wpProof_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_orig)) #pop-options //-- //-- AESNI_ctr32_6x_loop_body val va_code_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_loop_body alg rnd = (va_Block (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_CNil ()))))))))) val va_codegen_success_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd = (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret) (va_ttrue ())))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_loop_body (va_mods:va_mods_t) (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1118 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1119 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1120 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1121 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1122 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1123 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1125 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1126 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1127 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 2) - 128) Secret keys_b (rnd + 2)) (va_QEmpty (())))))))))))) val va_lemma_AESNI_ctr32_6x_loop_body : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_loop_body va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_loop_body va_mods alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1066 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1109 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1110 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1111 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1112 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1113 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1114 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1116 column 43 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (rnd + 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys rnd /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys rnd /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys rnd /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys rnd /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys rnd /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys rnd) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_body : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_body (va_code_AESNI_ctr32_6x_loop_body alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_body (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_body alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_body alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_body alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_loop_recursive val va_code_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_code(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_code_AESNI_ctr32_6x_loop_recursive alg rnd = (va_Block (va_CCons (if (rnd > 0) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_CNil ())) else va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_loop_body alg rnd) (va_CNil ())))) val va_codegen_success_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> Tot va_pbool(decreases %[alg;rnd]) [@ "opaque_to_smt"] let rec va_codegen_success_AESNI_ctr32_6x_loop_recursive alg rnd = (va_pbool_and (if (rnd > 0) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg (rnd - 1)) (va_ttrue ()) else va_ttrue ()) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_body alg rnd) (va_ttrue ()))) val va_lemma_AESNI_ctr32_6x_loop_recursive : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel)(decreases %[va_b0;va_s0;alg;rnd;key_words;round_keys;keys_b;init0;init1;init2;init3;init4;init5]) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0))))))))))) [@"opaque_to_smt"] let rec va_lemma_AESNI_ctr32_6x_loop_recursive va_b0 va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = va_reveal_opaque (`%va_code_AESNI_ctr32_6x_loop_recursive) (va_code_AESNI_ctr32_6x_loop_recursive alg rnd); let (va_old_s:va_state) = va_s0 in let (va_b1:va_codes) = va_get_block va_b0 in let va_b10 = va_tl va_b1 in let va_c10 = va_hd va_b1 in let (va_fc10, va_s10) = ( if (rnd > 0) then ( let va_b11 = va_get_block va_c10 in let (va_s12, va_fc12) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_hd va_b11) va_s0 alg (rnd - 1) key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b12 = va_tl va_b11 in let (va_s10, va_f12) = va_lemma_empty_total va_s12 va_b12 in let va_fc10 = va_lemma_merge_total va_b11 va_s0 va_fc12 va_s12 va_f12 va_s10 in (va_fc10, va_s10) ) else ( let va_b13 = va_get_block va_c10 in let (va_s10, va_fc10) = va_lemma_empty_total va_s0 va_b13 in (va_fc10, va_s10) ) ) in let (va_s14, va_fc14) = va_lemma_AESNI_ctr32_6x_loop_body (va_hd va_b10) va_s10 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let va_b14 = va_tl va_b10 in let (va_sM, va_f14) = va_lemma_empty_total va_s14 va_b14 in let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc14 va_s14 va_f14 va_sM in let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc10 va_s10 va_f10 va_sM in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 2 < FStar.Seq.Base.length #quad32 round_keys /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys 1 /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys 0 /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys 0 /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys 0 /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys 0 /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys 0 /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys 0) /\ (forall (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (rnd + 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (rnd + 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (rnd + 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (rnd + 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (rnd + 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (rnd + 1) /\ va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys (rnd + 2)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_loop_recursive : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_loop_recursive (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) va_s0 alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM va_s0)))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_loop_recursive (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_loop_recursive alg rnd)) = (va_QProc (va_code_AESNI_ctr32_6x_loop_recursive alg rnd) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9]) (va_wp_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_loop_recursive alg rnd key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) //-- //-- AESNI_ctr32_6x_round9 #push-options "--z3rlimit 100" val va_code_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_round9 alg = (va_Block (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_CNil ())) else va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CNil ())))))))))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_round9 : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_round9 alg = (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ()) else va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ())) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_ttrue ()))))))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1260 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1261 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1263 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1266 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1267 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 4) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1268 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1270 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1271 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1272 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1273 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1274 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1275 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1276 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 15)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1277 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1277 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1279 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1280 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1282 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QEmpty (()))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0)))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_round9 va_b0 va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok] in let va_qc = va_qcode_AESNI_ctr32_6x_round9 va_mods alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_round9 alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1191 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1243 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1244 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1245 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1246 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1247 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1248 column 66 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label va_range1 "* POSTCONDITION NOT MET AT line 1251 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1252 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1253 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1254 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1255 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1256 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1258 column 31 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi; va_Mod_ok]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 == FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 2) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 2)) /\ (forall (va_x_rdi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRdi va_x_rdi va_s0)))))))))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_sM == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_sM == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_sM == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_sM == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_sM == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 5 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 6 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 8 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 2 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 3 va_sM == Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM)) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_round9 (va_code_AESNI_ctr32_6x_round9 alg) va_s0 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM va_s0))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_round9 alg)) = (va_QProc (va_code_AESNI_ctr32_6x_round9 alg) ([va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRdi]) (va_wp_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_wpProof_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5)) #pop-options //-- //-- AESNI_ctr32_6x_final val va_code_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x_final alg = (va_Block (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CNil ()))))))))))))))) val va_codegen_success_AESNI_ctr32_6x_final : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x_final alg = (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x_final (va_mods:va_mods_t) (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1381 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1382 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1383 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 6)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1384 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 8)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1385 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1386 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1388 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) 0 Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1389 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) 16 Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1390 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) 32 Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1391 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) 48 Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1392 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) 64 Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1393 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) 80 Secret out_b (count `op_Multiply` 6 + 5)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 1395 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1397 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg83:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let (va_arg82:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let (va_arg81:Vale.Def.Types_s.quad32) = init0 in let (va_arg80:Vale.Def.Types_s.quad32) = plain0 in let (va_arg79:Vale.Def.Types_s.quad32) = ctr0 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1398 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84) (let (va_arg77:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg76:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let (va_arg75:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let (va_arg74:Vale.Def.Types_s.quad32) = init1 in let (va_arg73:Vale.Def.Types_s.quad32) = plain1 in let (va_arg72:Vale.Def.Types_s.quad32) = ctr1 in let (va_arg71:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1399 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg71 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let (va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let (va_arg67:Vale.Def.Types_s.quad32) = init2 in let (va_arg66:Vale.Def.Types_s.quad32) = plain2 in let (va_arg65:Vale.Def.Types_s.quad32) = ctr2 in let (va_arg64:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1400 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg64 va_arg65 va_arg66 va_arg67 va_arg68 va_arg69 va_arg70) (let (va_arg63:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let (va_arg61:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let (va_arg60:Vale.Def.Types_s.quad32) = init3 in let (va_arg59:Vale.Def.Types_s.quad32) = plain3 in let (va_arg58:Vale.Def.Types_s.quad32) = ctr3 in let (va_arg57:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1401 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg57 va_arg58 va_arg59 va_arg60 va_arg61 va_arg62 va_arg63) (let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg55:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let (va_arg54:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let (va_arg53:Vale.Def.Types_s.quad32) = init4 in let (va_arg52:Vale.Def.Types_s.quad32) = plain4 in let (va_arg51:Vale.Def.Types_s.quad32) = ctr4 in let (va_arg50:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1402 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg50 va_arg51 va_arg52 va_arg53 va_arg54 va_arg55 va_arg56) (let (va_arg49:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let (va_arg48:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let (va_arg47:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let (va_arg46:Vale.Def.Types_s.quad32) = init5 in let (va_arg45:Vale.Def.Types_s.quad32) = plain5 in let (va_arg44:Vale.Def.Types_s.quad32) = ctr5 in let (va_arg43:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1403 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg43 va_arg44 va_arg45 va_arg46 va_arg47 va_arg48 va_arg49) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1404 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr0 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr0 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr0 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1405 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr1 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr1 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr1 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1406 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr2 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr2 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr2 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1407 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr3 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr3 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr3 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1408 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr4 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr4 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr4 key_words) (va_QLemma va_range1 "* PRECONDITION NOT MET AT line 1409 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg key) alg ctr5 key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg ctr5 key_words) (fun (_:unit) -> finish_aes_encrypt_le alg ctr5 key_words) (va_QEmpty (()))))))))))))))))))))))))))))) val va_lemma_AESNI_ctr32_6x_final : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x_final alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x_final va_b0 va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x_final va_mods alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x_final alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1285 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1362 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1363 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1364 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1366 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1367 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1368 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1369 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1370 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1371 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1373 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1374 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1375 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1376 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1377 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1378 column 75 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ init0 == Vale.Def.Types_s.quad32_xor ctr0 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init1 == Vale.Def.Types_s.quad32_xor ctr1 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init2 == Vale.Def.Types_s.quad32_xor ctr2 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init3 == Vale.Def.Types_s.quad32_xor ctr3 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init4 == Vale.Def.Types_s.quad32_xor ctr4 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ init5 == Vale.Def.Types_s.quad32_xor ctr5 (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) /\ va_get_xmm 9 va_s0 == Vale.AES.AES_s.eval_rounds init0 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 10 va_s0 == Vale.AES.AES_s.eval_rounds init1 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 11 va_s0 == Vale.AES.AES_s.eval_rounds init2 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 12 va_s0 == Vale.AES.AES_s.eval_rounds init3 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 13 va_s0 == Vale.AES.AES_s.eval_rounds init4 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ va_get_xmm 14 va_s0 == Vale.AES.AES_s.eval_rounds init5 round_keys (Vale.AES.AES_common_s.nr alg - 1) /\ (let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in va_get_xmm 4 va_s0 == Vale.Def.Types_s.quad32_xor rk plain0 /\ va_get_xmm 5 va_s0 == Vale.Def.Types_s.quad32_xor rk plain1 /\ va_get_xmm 6 va_s0 == Vale.Def.Types_s.quad32_xor rk plain2 /\ va_get_xmm 8 va_s0 == Vale.Def.Types_s.quad32_xor rk plain3 /\ va_get_xmm 2 va_s0 == Vale.Def.Types_s.quad32_xor rk plain4 /\ va_get_xmm 3 va_s0 == Vale.Def.Types_s.quad32_xor rk plain5)) /\ (forall (va_x_mem:vale_heap) (va_x_rsi:nat64) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_reg64 rRsi va_x_rsi (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.quad32_xor plain0 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.quad32_xor plain1 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr1) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.quad32_xor plain2 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr2) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.quad32_xor plain3 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr3) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.quad32_xor plain4 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr4) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.quad32_xor plain5 (Vale.AES.AES_s.aes_encrypt_LE alg key_words ctr5)) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x_final : alg:algorithm -> count:nat -> out_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init0:quad32 -> init1:quad32 -> init2:quad32 -> init3:quad32 -> init4:quad32 -> init5:quad32 -> ctr0:quad32 -> ctr1:quad32 -> ctr2:quad32 -> ctr3:quad32 -> ctr4:quad32 -> ctr5:quad32 -> plain0:quad32 -> plain1:quad32 -> plain2:quad32 -> plain3:quad32 -> plain4:quad32 -> plain5:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x_final (va_code_AESNI_ctr32_6x_final alg) va_s0 alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_reg64 rRsi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x_final (alg:algorithm) (count:nat) (out_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (init0:quad32) (init1:quad32) (init2:quad32) (init3:quad32) (init4:quad32) (init5:quad32) (ctr0:quad32) (ctr1:quad32) (ctr2:quad32) (ctr3:quad32) (ctr4:quad32) (ctr5:quad32) (plain0:quad32) (plain1:quad32) (plain2:quad32) (plain3:quad32) (plain4:quad32) (plain5:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x_final alg)) = (va_QProc (va_code_AESNI_ctr32_6x_final alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_reg64 rRsi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5) (va_wpProof_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 ctr0 ctr1 ctr2 ctr3 ctr4 ctr5 plain0 plain1 plain2 plain3 plain4 plain5)) //-- //-- AESNI_ctr32_6x val va_code_AESNI_ctr32_6x : alg:algorithm -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_AESNI_ctr32_6x alg = (va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_AESNI_ctr32_6x_preamble alg) (va_CCons (if (alg = AES_128) then va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 7) (va_CNil ())) else va_Block (va_CCons (va_code_AESNI_ctr32_6x_loop_recursive alg 11) (va_CNil ()))) (va_CCons (va_code_AESNI_ctr32_6x_round9 alg) (va_CCons (va_code_AESNI_ctr32_6x_final alg) (va_CCons (va_Block (va_CNil ())) (va_CNil ()))))))))))))) val va_codegen_success_AESNI_ctr32_6x : alg:algorithm -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_AESNI_ctr32_6x alg = (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_preamble alg) (va_pbool_and (if (alg = AES_128) then va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 7) (va_ttrue ()) else va_pbool_and (va_codegen_success_AESNI_ctr32_6x_loop_recursive alg 11) (va_ttrue ())) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_round9 alg) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x_final alg) (va_ttrue ()))))) [@ "opaque_to_smt" va_qattr] let va_qcode_AESNI_ctr32_6x (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1492 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init0:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1493 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init1:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1494 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init2:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1495 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init3:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1496 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init4:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1497 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" ((fun a_539 (s_540:(FStar.Seq.Base.seq a_539)) (i_541:Prims.nat) -> let (i_515:Prims.nat) = i_541 in Prims.b2t (Prims.op_LessThan i_515 (FStar.Seq.Base.length #a_539 s_540))) Vale.Def.Types_s.quad32 round_keys 0) (fun _ -> let (init5:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 1499 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_preamble alg key_words round_keys keys_b ctr_BE) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1500 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qInlineIf va_mods (alg = AES_128) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1501 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 7 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1503 column 36 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_loop_recursive alg 11 key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1505 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_round9 alg count in_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5) (fun (va_s:va_state) _ -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 1506 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x_final alg count out_b key_words round_keys keys_b init0 init1 init2 init3 init4 init5 (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 1)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 2)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 3)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 4)) (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 5)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s))) (fun (va_s:va_state) _ -> let (plain:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (cipher:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (bound:(va_int_at_least 0)) = count `op_Multiply` 6 in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (bound >= 0 /\ bound <= 4294967295) (fun _ -> let (va_arg61:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg60:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg59:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg58:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) out_b in let (va_arg57:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg56:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg55:Vale.Def.Types_s.nat32) = bound in let (va_arg54:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1523 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg54 va_arg55 va_arg56 va_arg57 va_arg58 va_arg59 va_arg60 va_arg61) (let (va_arg53:Vale.Def.Types_s.quad32) = ctr_BE_orig in let (va_arg52:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg51:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = cipher in let (va_arg50:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = plain_quads in let (va_arg49:Prims.nat) = bound in let (va_arg48:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 1525 column 25 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg48 va_arg49 va_arg50 va_arg51 va_arg52 va_arg53) (va_QEmpty (())))))))))))))))) val va_lemma_AESNI_ctr32_6x : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_ctr32_6x alg) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))) [@"opaque_to_smt"] let va_lemma_AESNI_ctr32_6x va_b0 va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AESNI_ctr32_6x va_mods alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AESNI_ctr32_6x alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1412 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1473 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1474 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1475 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1476 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1478 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1479 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1480 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1482 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1483 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1484 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1485 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1486 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1487 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1490 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ Vale.AES.GCTR.partial_seq_agreement plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (count `op_Multiply` 6) (count `op_Multiply` 6 + 6) /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64 /\ va_get_reg64 rRsi va_s0 + 96 < pow2_64 /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_reg64 rRcx va_s0 - 96 >= 0 /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ count `op_Multiply` 6 + 6 < pow2_32 /\ ctr_BE == Vale.AES.GCTR.inc32lite ctr_BE_orig (count `op_Multiply` 6) /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` count) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) key_words ctr_BE_orig) /\ (forall (va_x_mem:vale_heap) (va_x_rdi:nat64) (va_x_rsi:nat64) (va_x_rbx:nat64) (va_x_r11:nat64) (va_x_r12:nat64) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm8:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_xmm15:quad32) (va_x_heap6:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 6 va_x_heap6 (va_upd_xmm 15 va_x_xmm15 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 8 va_x_xmm8 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1 (va_upd_reg64 rR12 va_x_r12 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx va_x_rbx (va_upd_reg64 rRsi va_x_rsi (va_upd_reg64 rRdi va_x_rdi (va_upd_mem va_x_mem va_s0))))))))))))))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96 /\ va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_sM /\ Vale.AES.GCTR.gctr_partial alg (6 `op_Multiply` (count + 1)) plain_quads (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words ctr_BE_orig) ==> va_k va_sM (()))) val va_wpProof_AESNI_ctr32_6x : alg:algorithm -> count:nat -> in_b:buffer128 -> out_b:buffer128 -> plain_quads:(seq quad32) -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_BE:quad32 -> ctr_BE_orig:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_ctr32_6x (va_code_AESNI_ctr32_6x alg) va_s0 alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_ctr32_6x (alg:algorithm) (count:nat) (in_b:buffer128) (out_b:buffer128) (plain_quads:(seq quad32)) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (ctr_BE:quad32) (ctr_BE_orig:quad32) : (va_quickCode unit (va_code_AESNI_ctr32_6x alg)) = (va_QProc (va_code_AESNI_ctr32_6x alg) ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) (va_wp_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig) (va_wpProof_AESNI_ctr32_6x alg count in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE_orig)) //-- //-- Encrypt_save_and_shuffle_output val va_code_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_Encrypt_save_and_shuffle_output () = (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CNil ()))))))))))))))) val va_codegen_success_Encrypt_save_and_shuffle_output : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_Encrypt_save_and_shuffle_output () = (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_Encrypt_save_and_shuffle_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1573 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1574 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1575 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPxor (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_opr128_xmm 7)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1576 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1577 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1578 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1579 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1580 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1581 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1582 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1584 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1585 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QEmpty (())))))))))))))))) val va_lemma_Encrypt_save_and_shuffle_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Encrypt_save_and_shuffle_output ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) /\ va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))) [@"opaque_to_smt"] let va_lemma_Encrypt_save_and_shuffle_output va_b0 va_s0 count out_b = let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_Encrypt_save_and_shuffle_output va_mods count out_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Encrypt_save_and_shuffle_output ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1528 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1554 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1555 column 96 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1557 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1558 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1559 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1560 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1561 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1562 column 65 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1564 column 38 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1565 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1566 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1567 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1568 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1569 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1570 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm1:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap6:vale_heap) . let va_sM = va_upd_mem_heaplet 6 va_x_heap6 (va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9 (va_upd_xmm 1 va_x_xmm1 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\ FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) out_b) 0 (6 `op_Multiply` count) /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 9 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 10 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 11 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 12 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 13 va_s0 /\ Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_sM) == va_get_xmm 14 va_s0 /\ va_get_xmm 1 va_sM == Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_s0) (va_get_xmm 7 va_sM) /\ va_get_xmm 9 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 9 va_s0) /\ va_get_xmm 10 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 10 va_s0) /\ va_get_xmm 11 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 11 va_s0) /\ va_get_xmm 12 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 12 va_s0) /\ va_get_xmm 13 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 13 va_s0) /\ va_get_xmm 14 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 14 va_s0)) ==> va_k va_sM (()))) val va_wpProof_Encrypt_save_and_shuffle_output : count:nat -> out_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Encrypt_save_and_shuffle_output count out_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_Encrypt_save_and_shuffle_output count out_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_Encrypt_save_and_shuffle_output (va_code_Encrypt_save_and_shuffle_output ()) va_s0 count out_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem_heaplet 6 va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 1 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))); va_lemma_norm_mods ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_Encrypt_save_and_shuffle_output (count:nat) (out_b:buffer128) : (va_quickCode unit (va_code_Encrypt_save_and_shuffle_output ())) = (va_QProc (va_code_Encrypt_save_and_shuffle_output ()) ([va_Mod_mem_heaplet 6; va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 1; va_Mod_mem]) (va_wp_Encrypt_save_and_shuffle_output count out_b) (va_wpProof_Encrypt_save_and_shuffle_output count out_b)) //-- //-- UpdateScratch val va_code_UpdateScratch : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_UpdateScratch () = (va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_CNil ())))))))))) val va_codegen_success_UpdateScratch : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_UpdateScratch () = (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret) (va_ttrue ()))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_UpdateScratch (va_mods:va_mods_t) (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1623 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1624 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Mov128 (va_op_xmm_xmm 7) (va_op_xmm_xmm 14)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1625 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1626 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 13) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1627 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 12) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1628 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 11) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1629 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 10) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 1630 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 9) 112 Secret scratch_b 7) (va_QEmpty (()))))))))))) val va_lemma_UpdateScratch : va_b0:va_code -> va_s0:va_state -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_UpdateScratch ()) va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))) [@"opaque_to_smt"] let va_lemma_UpdateScratch va_b0 va_s0 scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_UpdateScratch va_mods scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_UpdateScratch ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 1588 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 1610 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1611 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1613 column 63 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1614 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1615 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1616 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1617 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1618 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1619 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1620 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == va_get_xmm 14 va_sM) /\ label va_range1 "* POSTCONDITION NOT MET AT line 1621 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_UpdateScratch (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret) /\ (forall (va_x_mem:vale_heap) (va_x_xmm4:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 4 va_x_xmm4 (va_upd_mem va_x_mem va_s0)))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer_modifies_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 7 /\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_s0) == Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 13 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 12 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 11 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 10 va_sM /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 9 va_sM /\ va_get_xmm 7 va_sM == va_get_xmm 14 va_sM /\ va_get_xmm 4 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0) ==> va_k va_sM (()))) val va_wpProof_UpdateScratch : scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_UpdateScratch scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_UpdateScratch scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_UpdateScratch (va_code_UpdateScratch ()) va_s0 scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 4 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_UpdateScratch (scratch_b:buffer128) : (va_quickCode unit (va_code_UpdateScratch ())) = (va_QProc (va_code_UpdateScratch ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 4; va_Mod_mem]) (va_wp_UpdateScratch scratch_b) (va_wpProof_UpdateScratch scratch_b)) //-- //-- AES_GCM_encrypt_6mult #push-options "--z3rlimit 40000 --z3refresh --max_ifuel 0 --z3seed 7" #restart-solver [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_encrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_CCons (va_code_AESNI_ctr32_6x alg) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop alg) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 4)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Encrypt_save_and_shuffle_output ()) (va_CCons (va_code_UpdateScratch ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_GhashUnroll6x ()) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ())))))))))))))))))))))))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_encrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret) (va_pbool_and (va_codegen_success_AESNI_ctr32_6x alg) (va_pbool_and (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop alg) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 4)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (va_pbool_and (va_codegen_success_Encrypt_save_and_shuffle_output ()) (va_pbool_and (va_codegen_success_UpdateScratch ()) (va_pbool_and (va_codegen_success_GhashUnroll6x ()) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)))))))))))))))))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_encrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_encrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2176 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2178 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2179 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg104:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg102:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg101:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg100:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2180 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg100 va_arg101 va_arg102 va_arg103 va_arg104) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2187 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2189 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2195 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2197 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg136:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg135:Vale.Def.Types_s.nat64) = full_counter in let (va_arg134:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2198 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg134 va_arg135 va_arg136) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2200 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2203 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (fun (va_s:va_state) _ -> let (va_arg133:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg132:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg131:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg130:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg129:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2205 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg129 va_arg130 va_arg131 va_arg132 va_arg133) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2206 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 0 in_b out_b plain_quads key_words round_keys keys_b ctr_BE ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2208 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 8) (va_op_xmm_xmm 9) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2209 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2210 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 112 Secret scratch_b 7) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2211 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2212 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2213 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2214 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2215 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2216 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2217 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2218 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2220 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AESNI_ctr32_6x alg 1 in_b out_b plain_quads key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 6) ctr_BE) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2221 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 12)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2223 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2226 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2233 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg128:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2234 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg128) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2235 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2236 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2237 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) 2 iv_b out_b in_b out_b scratch_b (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b) key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 12)) (fun (va_s:va_state) (y_new:quad32) -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2240 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2243 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2246 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_ZeroXmm (va_op_xmm_xmm 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2247 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 16 Secret scratch_b 1) (fun (va_s:va_state) _ -> let (va_arg127:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2248 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg127) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2250 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (data:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 12) (va_get_reg64 rRdx va_old_s - 6) in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2251 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new data) (fun (va_s:va_state) _ -> let (y_new':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) (fun _ -> let (va_arg126:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg125:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) in let (va_arg124:Vale.Def.Types_s.quad32) = y_new in let (va_arg123:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2253 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg123 y_orig va_arg124 y_new' va_arg125 va_arg126) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 12 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12) /\ va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2255 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 12)) data) (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6))) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2260 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR12)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2267 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 >= 0) (fun _ -> let (offset_in:nat) = va_get_reg64 rRdx va_old_s `op_Division` 6 - 1 in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2268 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Encrypt_save_and_shuffle_output offset_in out_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2271 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_UpdateScratch scratch_b) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2273 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ va_get_reg64 rRdx va_old_s >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s)) (fun _ -> let data = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) (va_get_reg64 rRdx va_old_s - 6) (va_get_reg64 rRdx va_old_s) in let (va_arg122:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2274 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg122) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2275 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_GhashUnroll6x hkeys_b scratch_b h_LE y_new' data) (fun (va_s:va_state) _ -> let (y_new'':Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> let (va_arg121:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = data in let (va_arg120:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6) in let (va_arg119:Vale.Def.Types_s.quad32) = h_LE in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2278 column 40 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GHash.lemma_ghash_incremental0_append va_arg119 y_orig y_new' y_new'' va_arg120 va_arg121) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRdx va_old_s - 6 >= 0 /\ (fun a_1906 (s_1907:(FStar.Seq.Base.seq a_1906)) (i_1908:Prims.nat) (j_1909:Prims.nat) -> let (j_1869:Prims.nat) = j_1909 in Prims.b2t (Prims.op_AmpAmp (Prims.op_LessThanOrEqual i_1908 j_1869) (Prims.op_LessThanOrEqual j_1869 (FStar.Seq.Base.length #a_1906 s_1907)))) Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) (fun _ -> va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2280 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (FStar.Seq.Base.equal #Vale.X64.Decls.quad32 (FStar.Seq.Base.append #Vale.X64.Decls.quad32 (FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b) 0 (va_get_reg64 rRdx va_old_s - 6)) data) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b)) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (12 + mid_len - 6 >= 0 /\ 12 + mid_len - 6 <= 4294967295) (fun _ -> let (va_arg118:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg116:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg115:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg114:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg113:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg112:Vale.Def.Types_s.nat32) = 12 + mid_len - 6 in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2286 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg111 va_arg112 va_arg113 va_arg114 va_arg115 va_arg116 va_arg117 va_arg118) (let (va_arg110:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg109:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg108:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg107:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg106:Prims.nat) = 12 + mid_len - 6 in let (va_arg105:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2287 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg105 va_arg106 va_arg107 va_arg108 va_arg109 va_arg110) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2289 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_encrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_encrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_encrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2086 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2159 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2160 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2161 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2163 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2166 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2169 column 112 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2173 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AES_GCM_encrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_AES_GCM_encrypt_6mult (va_code_AES_GCM_encrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_reg64 rRcx va_sM (va_update_reg64 rRdx va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM (va_update_reg64 rRax va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) #pop-options //-- //-- DecryptPrelude val va_code_DecryptPrelude : va_dummy:unit -> Tot va_code [@ "opaque_to_smt" va_qattr] let va_code_DecryptPrelude () = (va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_CNil ()))))))))))))))))))) val va_codegen_success_DecryptPrelude : va_dummy:unit -> Tot va_pbool [@ "opaque_to_smt" va_qattr] let va_codegen_success_DecryptPrelude () = (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret) (va_ttrue ())))))))))))))))))) [@ "opaque_to_smt" va_qattr] let va_qcode_DecryptPrelude (va_mods:va_mods_t) (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2339 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64 rRdi) 80 Secret in_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2340 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 4) (va_op_reg_opr64_reg64 rRdi) 64 Secret in_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2341 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 5) (va_op_reg_opr64_reg64 rRdi) 48 Secret in_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2342 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 6) (va_op_reg_opr64_reg64 rRdi) 32 Secret in_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2344 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2345 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 2) (va_op_reg_opr64_reg64 rRdi) 16 Secret in_b 1) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2346 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 4) (va_op_xmm_xmm 4) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2347 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rRdi) 0 Secret in_b 0) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2348 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 5) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2349 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 4) 48 Secret scratch_b 3) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2350 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 6) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2351 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 5) 64 Secret scratch_b 4) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2352 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 2) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2353 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 6) 80 Secret scratch_b 5) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2354 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 3) (va_op_xmm_xmm 3) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2355 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 2) 96 Secret scratch_b 6) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2356 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 3) 112 Secret scratch_b 7) (va_QEmpty (())))))))))))))))))))) val va_lemma_DecryptPrelude : va_b0:va_code -> va_s0:va_state -> in_b:buffer128 -> scratch_b:buffer128 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_DecryptPrelude ()) va_s0 /\ va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))))) [@"opaque_to_smt"] let va_lemma_DecryptPrelude va_b0 va_s0 in_b scratch_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_DecryptPrelude va_mods in_b scratch_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_DecryptPrelude ()) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2295 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2323 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2325 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2326 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2327 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2328 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2329 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM))) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2331 column 67 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM) [@ va_qattr] let va_wp_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validSrcAddrs128 (va_get_mem_heaplet 6 va_s0) (va_get_reg64 rRdi va_s0) in_b 6 (va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ va_get_xmm 0 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051) /\ (forall (va_x_mem:vale_heap) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm4:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm7:quad32) (va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 4 va_x_xmm4 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_mem va_x_mem va_s0)))))))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 3 7 /\ Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 0 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 1 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 2 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 3 (va_get_mem_heaplet 6 va_sM)) /\ Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 4 (va_get_mem_heaplet 6 va_sM)) /\ va_get_xmm 7 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in_b 5 (va_get_mem_heaplet 6 va_sM))) ==> va_k va_sM (()))) val va_wpProof_DecryptPrelude : in_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_DecryptPrelude in_b scratch_b va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_DecryptPrelude in_b scratch_b va_s0 va_k = let (va_sM, va_f0) = va_lemma_DecryptPrelude (va_code_DecryptPrelude ()) va_s0 in_b scratch_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_DecryptPrelude (in_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_DecryptPrelude ())) = (va_QProc (va_code_DecryptPrelude ()) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_mem]) (va_wp_DecryptPrelude in_b scratch_b) (va_wpProof_DecryptPrelude in_b scratch_b)) //-- //-- AES_GCM_decrypt_6mult #push-options "--z3rlimit 100" [@ "opaque_to_smt" va_qattr] let va_code_AES_GCM_decrypt_6mult alg = (va_Block (va_CCons (va_IfElse (va_cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CNil ())))) (va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CCons (va_code_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_CCons (va_code_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_CCons (va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons (va_code_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_CCons (va_code_DecryptPrelude ()) (va_CCons (va_code_Ctr32_ghash_6_prelude alg) (va_CCons (va_code_Loop6x_loop_decrypt alg) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_CNil ()))))))))))))))))))))))) (va_CNil ()))) [@ "opaque_to_smt" va_qattr] let va_codegen_success_AES_GCM_decrypt_6mult alg = (va_pbool_and (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret) (va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_pbool_and (va_codegen_success_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (va_pbool_and (va_codegen_success_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret) (va_pbool_and (va_codegen_success_DecryptPrelude ()) (va_pbool_and (va_codegen_success_Ctr32_ghash_6_prelude alg) (va_pbool_and (va_codegen_success_Loop6x_loop_decrypt alg) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_codegen_success_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128))))))))))))))))))))) (va_ttrue ())) [@ "opaque_to_smt" va_qattr] let va_qcode_AES_GCM_decrypt_6mult (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (in_b:buffer128) (out_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) : (va_quickCode unit (va_code_AES_GCM_decrypt_6mult alg)) = (qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2445 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_qIf va_mods (Cmp_eq (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2453 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2454 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_old_s in let (va_arg70:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg69:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg68:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (va_arg67:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2455 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_init va_arg67 va_arg68 va_arg69 va_arg70 va_arg71) (va_QEmpty (())))))) (qblock va_mods (fun (va_s:va_state) -> let (plain_quads:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) in_b in let (y_orig:Vale.Def.Types_s.quad32) = Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s) in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2461 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 8) 32 Secret scratch_b 2) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2462 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Add64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (fun (va_s:va_state) _ -> let (ctr_BE:quad32) = va_get_xmm 1 va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2464 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Pextrq (va_op_dst_opr64_reg64 rRbx) (va_op_xmm_xmm 1) 0) (fun (va_s:va_state) _ -> let (full_counter:nat64) = va_get_reg64 rRbx va_s in va_QBind va_range1 "* PRECONDITION NOT MET AT line 2466 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_And64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 255)) (fun (va_s:va_state) _ -> let (va_arg89:Vale.Def.Types_s.nat64) = va_get_reg64 rRbx va_s in let (va_arg88:Vale.Def.Types_s.nat64) = full_counter in let (va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2467 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.lemma_counter_init va_arg87 va_arg88 va_arg89) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2469 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2472 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_AddLea64 (va_op_dst_opr64_reg64 rR14) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2475 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 8) (va_op_reg_opr64_reg64 rRbp) 32 Secret scratch_b 2) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2478 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_DecryptPrelude in_b scratch_b) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2480 column 30 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Ctr32_ghash_6_prelude alg scratch_b key_words round_keys keys_b (Vale.AES.GCTR_s.inc32 ctr_BE 0)) (fun (va_s:va_state) _ -> let (mid_len:nat64) = va_get_reg64 rRdx va_s in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2482 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.Words.lemma_quad32_zero ()) (let (va_arg86:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2483 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.Math.Poly2.lemma_add_zero va_arg86) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2484 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s) == add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s))) (Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_s)))) (va_qAssert va_range1 "* PRECONDITION NOT MET AT line 2485 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Math.Poly2.Bits_s.to_quad32 (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_s)) == va_get_xmm 8 va_s) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2486 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Loop6x_loop_decrypt alg h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s)) iv_b in_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE (Vale.AES.GCTR_s.inc32 ctr_BE 0)) (fun (va_s:va_state) (y_new:quad32) -> va_QBind va_range1 "* PRECONDITION NOT MET AT line 2488 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 32 Secret scratch_b 2) (fun (va_s:va_state) _ -> let (out_snapshot:(FStar.Seq.Base.seq Vale.X64.Decls.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2492 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 0)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2493 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 1)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2494 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 11) (0 - 64) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 2)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2495 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 3)) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2496 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 4)) (va_QBind va_range1 "* PRECONDITION NOT MET AT line 2497 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret out_b (va_get_reg64 rRdx va_old_s - 6 + 5)) (fun (va_s:va_state) _ -> va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2499 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (mid_len - 6 >= 0 /\ mid_len - 6 <= 4294967295) (fun _ -> let (va_arg85:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg84:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg83:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = out_snapshot in let (va_arg81:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg80:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg79:Vale.Def.Types_s.nat32) = mid_len - 6 in let (va_arg78:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2499 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_opaque_ignores_postfix va_arg78 va_arg79 va_arg80 va_arg81 va_arg82 va_arg83 va_arg84 va_arg85) (va_qAssertSquash va_range1 "* EXPRESSION PRECONDITIONS NOT MET WITHIN line 2500 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (mid_len - 6 >= 0 /\ mid_len - 6 <= 4294967295) (fun _ -> let (va_arg77:Vale.Def.Types_s.quad32) = ctr_BE in let (va_arg76:(FStar.Seq.Base.seq Vale.Def.Types_s.nat32)) = key_words in let (va_arg75:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s) out_b in let (va_arg74:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_old_s) in_b in let (va_arg73:Prims.nat) = mid_len - 6 in let (va_arg72:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1 "* PRECONDITION NOT MET AT line 2500 column 29 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (fun (_:unit) -> Vale.AES.GCTR.gctr_partial_extend6 va_arg72 va_arg73 va_arg74 va_arg75 va_arg76 va_arg77) (va_QSeq va_range1 "* PRECONDITION NOT MET AT line 2505 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_quick_Sub64 (va_op_dst_opr64_reg64 rRcx) (va_const_opr64 128)) (va_QEmpty (()))))))))))))))))))))))))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))) [@"opaque_to_smt"] let va_lemma_AES_GCM_decrypt_6mult va_b0 va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b = let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem] in let va_qc = va_qcode_AES_GCM_decrypt_6mult va_mods alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_AES_GCM_decrypt_6mult alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1 "* POSTCONDITION NOT MET AT line 2359 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_ok va_sM) /\ (label va_range1 "* POSTCONDITION NOT MET AT line 2429 column 53 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 out_b (va_get_mem_heaplet 6 va_s0) (va_get_mem_heaplet 6 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2430 column 52 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer128 iv_b (va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2431 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2433 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (va_get_reg64 rRcx va_sM == va_get_reg64 rRcx va_s0) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2436 column 100 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.AES.GCTR.gctr_partial alg (va_get_reg64 rRdx va_s0) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_sM) out_b) key_words (va_get_xmm 1 va_s0)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2439 column 116 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf *" (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_sM) == Vale.AES.GHash.ghash_incremental0 h_LE (Vale.Def.Types_s.reverse_bytes_quad32 (va_get_xmm 8 va_s0)) (Vale.X64.Decls.s128 (va_get_mem_heaplet 6 va_s0) in_b)) /\ label va_range1 "* POSTCONDITION NOT MET AT line 2443 column 98 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESGCM.vaf ***" (l_and (va_get_reg64 rRdx va_s0 < pow2_32) (Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite (va_get_xmm 1 va_s0) (va_get_reg64 rRdx va_s0)))))) in assert_norm (va_qc.mods == va_mods); va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_ok; va_Mod_mem]) va_sM va_s0; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.QuickCodes.fsti.checked", "Vale.X64.QuickCode.fst.checked", "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.InsVector.fsti.checked", "Vale.X64.InsMem.fsti.checked", "Vale.X64.InsBasic.fsti.checked", "Vale.X64.InsAes.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fsti.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Words.fsti.checked", "Vale.Math.Poly2.Lemmas.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Math.Poly2.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.TypesNative.fsti.checked", "Vale.Arch.Types.fsti.checked", "Vale.AES.X64.PolyOps.fsti.checked", "Vale.AES.X64.AESopt2.fsti.checked", "Vale.AES.X64.AESopt.fsti.checked", "Vale.AES.GHash.fsti.checked", "Vale.AES.GF128_s.fsti.checked", "Vale.AES.GF128.fsti.checked", "Vale.AES.GCTR_s.fst.checked", "Vale.AES.GCTR.fsti.checked", "Vale.AES.GCM_helpers.fsti.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_helpers.fsti.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Seq.Base.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Vale.AES.X64.AESGCM.fst" }	[ { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt2", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.AESopt", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GHash", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64.PolyOps", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.TypesNative", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCTR_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GCM_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_helpers", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCodes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsAes", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsVector", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	alg: Vale.AES.AES_common_s.algorithm -> h_LE: Vale.X64.Decls.quad32 -> iv_b: Vale.X64.Memory.buffer128 -> in_b: Vale.X64.Memory.buffer128 -> out_b: Vale.X64.Memory.buffer128 -> scratch_b: Vale.X64.Memory.buffer128 -> key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 -> round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 -> keys_b: Vale.X64.Memory.buffer128 -> hkeys_b: Vale.X64.Memory.buffer128 -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.AES.AES_common_s.algorithm", "Vale.X64.Decls.quad32", "Vale.X64.Memory.buffer128", "FStar.Seq.Base.seq", "Vale.X64.Memory.nat32", "Vale.X64.Decls.va_state", "Prims.unit", "Vale.X64.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_Mod_mem_heaplet", "Vale.X64.QuickCode.va_Mod_xmm", "Vale.X64.QuickCode.va_Mod_reg64", "Vale.X64.Machine_s.rR14", "Vale.X64.Machine_s.rR13", "Vale.X64.Machine_s.rR12", "Vale.X64.Machine_s.rR11", "Vale.X64.Machine_s.rRbx", "Vale.X64.Machine_s.rRcx", "Vale.X64.Machine_s.rRdx", "Vale.X64.Machine_s.rRsi", "Vale.X64.Machine_s.rRdi", "Vale.X64.Machine_s.rRax", "Vale.X64.QuickCode.va_Mod_mem", "Prims.Nil", "Prims._assert", "Vale.X64.Decls.va_state_eq", "Vale.X64.Decls.va_update_flags", "Vale.X64.Decls.va_update_mem_heaplet", "Vale.X64.Decls.va_update_xmm", "Vale.X64.Decls.va_update_reg64", "Vale.X64.Decls.va_update_ok", "Vale.X64.Decls.va_update_mem", "Vale.X64.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.X64.State.vale_state", "Vale.AES.X64.AESGCM.va_lemma_AES_GCM_decrypt_6mult", "Vale.AES.X64.AESGCM.va_code_AES_GCM_decrypt_6mult" ]	[]	false	false	false	false	false	let va_wpProof_AES_GCM_decrypt_6mult alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b va_s0 va_k =	let va_sM, va_f0 = va_lemma_AES_GCM_decrypt_6mult (va_code_AES_GCM_decrypt_6mult alg) va_s0 alg h_LE iv_b in_b out_b scratch_b key_words round_keys keys_b hkeys_b in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR14 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM ( va_update_reg64 rRbx va_sM ( va_update_reg64 rRcx va_sM ( va_update_reg64 rRdx va_sM ( va_update_reg64 rRsi va_sM ( va_update_reg64 rRdi va_sM ( va_update_reg64 rRax va_sM ( va_update_ok va_sM ( va_update_mem va_sM va_s0 ) ) ) ) ) ) ) ) )) )))))))))) ))))))))))))); va_lemma_norm_mods ([ va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_mem_heaplet 6; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR14; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_reg64 rRcx; va_Mod_reg64 rRdx; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_reg64 rRax; va_Mod_mem ]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.length	val length: list 'a -> Tot nat	val length: list 'a -> Tot nat	let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 26, "end_line": 76, "start_col": 0, "start_line": 74 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	_: Prims.list 'a -> Prims.nat	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.op_Addition", "FStar.List.Tot.Base.length", "Prims.nat" ]	[ "recursion" ]	false	false	false	true	false	let rec length =	function \| [] -> 0 \| _ :: tl -> 1 + length tl	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.tail	val tail: l:list 'a {Cons? l} -> Tot (list 'a)	val tail: l:list 'a {Cons? l} -> Tot (list 'a)	let tail = function \| _::tl -> tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 15, "end_line": 47, "start_col": 0, "start_line": 46 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a {Cons? l} -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.b2t", "Prims.uu___is_Cons" ]	[]	false	false	false	false	false	let tail =	function \| _ :: tl -> tl	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.mapi	val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b)	val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b)	let mapi f l = mapi_init f l 0	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 30, "end_line": 169, "start_col": 0, "start_line": 169 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: Prims.int -> _: 'a -> 'b) -> l: Prims.list 'a -> Prims.list 'b	Prims.Tot	[ "total" ]	[]	[ "Prims.int", "Prims.list", "FStar.List.Tot.Base.mapi_init" ]	[]	false	false	false	true	false	let mapi f l =	mapi_init f l 0	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.nth	val nth: list 'a -> nat -> Tot (option 'a)	val nth: list 'a -> nat -> Tot (option 'a)	let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 55, "end_line": 84, "start_col": 0, "start_line": 82 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a -> n: Prims.nat -> FStar.Pervasives.Native.option 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.nat", "FStar.Pervasives.Native.None", "Prims.op_Equality", "Prims.int", "FStar.Pervasives.Native.Some", "Prims.bool", "FStar.List.Tot.Base.nth", "Prims.op_Subtraction", "FStar.Pervasives.Native.option" ]	[ "recursion" ]	false	false	false	true	false	let rec nth l n =	match l with \| [] -> None \| hd :: tl -> if n = 0 then Some hd else nth tl (n - 1)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.index	val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a	val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a	let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 24, "end_line": 94, "start_col": 0, "start_line": 90 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list a -> i: Prims.nat{i < FStar.List.Tot.Base.length l} -> a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "FStar.List.Tot.Base.length", "Prims.op_Equality", "Prims.int", "FStar.List.Tot.Base.hd", "Prims.bool", "FStar.List.Tot.Base.index", "FStar.List.Tot.Base.tl", "Prims.op_Subtraction" ]	[ "recursion" ]	false	false	false	false	false	let rec index #a (l: list a) (i: nat{i < length l}) : Tot a =	if i = 0 then hd l else index (tl l) (i - 1)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.init	val init: l:list 'a {Cons? l} -> Tot (list 'a)	val init: l:list 'a {Cons? l} -> Tot (list 'a)	let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 27, "end_line": 69, "start_col": 0, "start_line": 67 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a {Cons? l} -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.b2t", "Prims.uu___is_Cons", "Prims.Nil", "Prims.Cons", "FStar.List.Tot.Base.init" ]	[ "recursion" ]	false	false	false	false	false	let rec init =	function \| [_] -> [] \| hd :: tl -> hd :: (init tl)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.rev_acc	val rev_acc: list 'a -> list 'a -> Tot (list 'a)	val rev_acc: list 'a -> list 'a -> Tot (list 'a)	let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 36, "end_line": 110, "start_col": 0, "start_line": 108 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list 'a -> acc: Prims.list 'a -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.rev_acc", "Prims.Cons" ]	[ "recursion" ]	false	false	false	true	false	let rec rev_acc l acc =	match l with \| [] -> acc \| hd :: tl -> rev_acc tl (hd :: acc)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.count	val count: #a:eqtype -> a -> list a -> Tot nat	val count: #a:eqtype -> a -> list a -> Tot nat	let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 57, "end_line": 102, "start_col": 0, "start_line": 100 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: a -> _: Prims.list a -> Prims.nat	Prims.Tot	[ "total" ]	[]	[ "Prims.eqtype", "Prims.list", "Prims.op_Equality", "Prims.op_Addition", "FStar.List.Tot.Base.count", "Prims.bool", "Prims.nat" ]	[ "recursion" ]	false	false	false	false	false	let rec count #a x =	function \| [] -> 0 \| hd :: tl -> if x = hd then 1 + count x tl else count x tl	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_wp_AESNI_dec_last	val va_wp_AESNI_dec_last (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	val va_wp_AESNI_dec_last (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	let va_wp_AESNI_dec_last (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 315, "start_col": 0, "start_line": 308 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec dst src = (va_ttrue ()) val va_lemma_AESNI_dec : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec) (va_code_AESNI_dec dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec (va_code_AESNI_dec dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec dst src)) = (va_QProc (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec dst src) (va_wpProof_AESNI_dec dst src)) //-- //-- AESNI_dec_last val va_code_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec_last dst src = (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec_last dst src = (va_ttrue ()) val va_lemma_AESNI_dec_last : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec_last dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec_last) (va_code_AESNI_dec_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_state", "Prims.unit", "Prims.l_and", "Vale.X64.Decls.va_is_dst_xmm", "Vale.X64.Decls.va_is_src_xmm", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.CPU_Features_s.aesni_enabled", "Prims.l_Forall", "Vale.X64.Decls.va_value_xmm", "Vale.X64.Flags.t", "Prims.l_imp", "Prims.eq2", "Vale.Def.Types_s.quad32", "Vale.X64.Decls.va_eval_xmm", "Vale.Def.Types_s.quad32_xor", "Vale.AES.AES_common_s.inv_sub_bytes", "Vale.AES.AES_s.inv_shift_rows_LE", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_upd_flags", "Vale.X64.Decls.va_upd_operand_xmm" ]	[]	false	false	false	true	true	let va_wp_AESNI_dec_last (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0 =	(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst: va_value_xmm) (va_x_efl: Vale.X64.Flags.t). let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_code_VPclmulqdq	val va_code_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> Tot va_code	val va_code_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> Tot va_code	let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2)))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 40, "end_line": 56, "start_col": 0, "start_line": 54 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> src1Hi: Prims.bool -> src2Hi: Prims.bool -> Vale.X64.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Prims.bool", "Vale.X64.Taint_Semantics.mk_ins", "Vale.X64.InsLemmas.make_instr", "Prims.Cons", "Vale.X64.Instruction_s.instr_out", "Vale.X64.Instruction_s.out", "Vale.X64.Instruction_s.opXmm", "Prims.Nil", "Vale.X64.Instruction_s.instr_operand", "Vale.X64.Instruction_s.PreserveFlags", "Vale.X64.Instructions_s.ins_VPclmulqdq", "Prims.op_Addition", "Prims.int", "Vale.X64.Machine_s.OReg", "Vale.X64.Machine_s.quad32", "Vale.X64.Machine_s.reg_xmm", "Vale.X64.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi =	(mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2)))	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.map_gtot	val map_gtot (#a #b: _) (f: (a -> GTot b)) (x: list a) : GTot (list b)	val map_gtot (#a #b: _) (f: (a -> GTot b)) (x: list a) : GTot (list b)	let map_gtot #a #b (f:a -> GTot b) (x:list a) : GTot (list b) = fold_right_gtot x (fun x tl -> f x :: tl) []	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 48, "end_line": 210, "start_col": 0, "start_line": 208 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x) (* [fold_right_gtot] is just like [fold_right], except `f` is a ghost function **) let rec fold_right_gtot (#a:Type) (#b:Type) (l:list a) (f:a -> b -> GTot b) (x:b) : GTot b = match l with \| [] -> x \| hd::tl -> f hd (fold_right_gtot tl f x)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: a -> Prims.GTot b) -> x: Prims.list a -> Prims.GTot (Prims.list b)	Prims.GTot	[ "sometrivial" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.fold_right_gtot", "Prims.Cons", "Prims.Nil" ]	[]	false	false	false	false	false	let map_gtot #a #b (f: (a -> GTot b)) (x: list a) : GTot (list b) =	fold_right_gtot x (fun x tl -> f x :: tl) []	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.append	val append: list 'a -> list 'a -> Tot (list 'a)	val append: list 'a -> list 'a -> Tot (list 'a)	let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 27, "end_line": 121, "start_col": 0, "start_line": 119 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: Prims.list 'a -> y: Prims.list 'a -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.Cons", "FStar.List.Tot.Base.append" ]	[ "recursion" ]	false	false	false	true	false	let rec append x y =	match x with \| [] -> y \| a :: tl -> a :: append tl y	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.contains	val contains: #a: eqtype -> a -> list a -> Tot bool	val contains: #a: eqtype -> a -> list a -> Tot bool	let contains : #a:eqtype -> a -> list a -> Tot bool = mem	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 57, "end_line": 248, "start_col": 0, "start_line": 248 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x) (* [fold_right_gtot] is just like [fold_right], except `f` is a ghost function *) let rec fold_right_gtot (#a:Type) (#b:Type) (l:list a) (f:a -> b -> GTot b) (x:b) : GTot b = match l with \| [] -> x \| hd::tl -> f hd (fold_right_gtot tl f x) ( We define map in terms of fold, to share simple lemmas ) let map_gtot #a #b (f:a -> GTot b) (x:list a) : GTot (list b) = fold_right_gtot x (fun x tl -> f x :: tl) [] (* [fold_left2 f x [y1; y2; ...; yn] [z1; z2; ...; zn]] computes (f (... (f x y1 z1) y2 z2) ... yn zn). Requires, at type-checking time, [f] to be a pure total function, and the lists [y1; y2; ...; yn] and [z1; z2; ...; zn] to have the same lengths. Named as in: OCaml ) val fold_left2 : f:('a -> 'b -> 'c -> Tot 'a) -> accu:'a -> l1:(list 'b) -> l2:(list 'c) -> Pure 'a (requires (length l1 == length l2)) (ensures (fun _ -> True)) (decreases l1) let rec fold_left2 f accu l1 l2 = match (l1, l2) with \| ([], []) -> accu \| (a1::l1, a2::l2) -> fold_left2 f (f accu a1 a2) l1 l2 (* Propositional membership (as in Coq). Does not require decidable equality. ) (* [memP x l] holds if, and only if, [x] appears as an element of [l]. Similar to: List.In in Coq. ) let rec memP (#a: Type) (x: a) (l: list a) : Tot Type0 = match l with \| [] -> False \| y :: q -> x == y \/ memP x q (* List searching ) ( [mem x l] returns [true] if, and only if, [x] appears as an element of [l]. Requires, at type-checking time, the type of elements of [l] to have decidable equality. Named as in: OCaml. See also: List.In in Coq, which is propositional. ) val mem: #a:eqtype -> a -> list a -> Tot bool let rec mem #a x = function \| [] -> false \| hd::tl -> if hd = x then true else mem x tl (* [contains x l] returns [true] if, and only if, [x] appears as an element of [l]. Requires, at type-checking time, the type of elements of [l] to have decidable equality. It is equivalent to: [mem x	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	_: a -> _: Prims.list a -> Prims.bool	Prims.Tot	[ "total" ]	[]	[ "FStar.List.Tot.Base.mem" ]	[]	false	false	false	false	false	let contains: #a: eqtype -> a -> list a -> Tot bool =	mem	false
Vale.PPC64LE.Memory_Sems.fst	Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_lo_hi_full	val low_lemma_load_mem128_lo_hi_full (b:buffer128) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf128 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale16 i in is_full_read vfh.vf_heap h b i /\ valid_addr64 ptr (heap_get (coerce vfh)) /\ valid_addr64 (ptr + 8) (heap_get (coerce vfh)) /\ valid_mem128 ptr vfh.vf_heap /\ valid_taint_buf128 b vfh.vf_heap mt t ))	val low_lemma_load_mem128_lo_hi_full (b:buffer128) (i:nat) (vfh:vale_full_heap) (t:taint) (hid:heaplet_id) : Lemma (requires ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b /\ valid_layout_buffer b vfh.vf_layout h false /\ valid_taint_buf128 b h mt t /\ mem_inv vfh )) (ensures ( let (h, mt) = (Map16.get vfh.vf_heaplets hid, vfh.vf_layout.vl_taint) in let ptr = buffer_addr b h + scale16 i in is_full_read vfh.vf_heap h b i /\ valid_addr64 ptr (heap_get (coerce vfh)) /\ valid_addr64 (ptr + 8) (heap_get (coerce vfh)) /\ valid_mem128 ptr vfh.vf_heap /\ valid_taint_buf128 b vfh.vf_heap mt t ))	let low_lemma_load_mem128_lo_hi_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_valid_mem128_64 b i vfh.vf_heap; ()	{ "file_name": "vale/code/arch/ppc64le/Vale.PPC64LE.Memory_Sems.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 4, "end_line": 1071, "start_col": 0, "start_line": 1068 }	module Vale.PPC64LE.Memory_Sems open FStar.Mul open Vale.Def.Prop_s open Vale.Def.Opaque_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.Memory open Vale.Def.Words_s module I = Vale.Interop module S = Vale.PPC64LE.Semantics_s module MB = LowStar.Monotonic.Buffer module UV = LowStar.BufferView.Up module DV = LowStar.BufferView.Down open Vale.Lib.BufferViewHelpers open Vale.Arch.HeapImpl open Vale.Arch.Heap friend Vale.PPC64LE.Memory module IB = Vale.Interop.Base let same_domain h m = Set.equal (IB.addrs_set (_ih h)) (Map.domain m) let lemma_same_domains h m1 m2 = () let get_heap h = I.down_mem (_ih h) let upd_heap h m = mi_heap_upd h m //let lemma_upd_get_heap h = I.down_up_identity (_ih h) let lemma_get_upd_heap h m = I.up_down_identity (_ih h) m let lemma_heap_impl = () let lemma_heap_get_heap h = () let lemma_heap_taint h = () //let lemma_heap_upd_heap h mh mt = () [@"opaque_to_smt"] let rec set_of_range (a:int) (n:nat) : Pure (Set.set int) (requires True) (ensures fun s -> (forall (i:int).{:pattern Set.mem i s} Set.mem i s <==> a <= i /\ i < a + n)) = if n = 0 then Set.empty else Set.union (set_of_range a (n - 1)) (Set.singleton (a + n - 1)) let buffer_info_has_addr (bi:buffer_info) (a:int) = let b = bi.bi_buffer in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in addr <= a /\ a < addr + len let buffer_info_has_addr_opt (bi:option buffer_info) (a:int) = match bi with \| None -> False \| Some bi -> buffer_info_has_addr bi a #set-options "--z3rlimit 100" let rec make_owns_rec (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = if n = 0 then ((fun _ -> None), (fun _ -> Set.empty)) else let (m0, s0) = make_owns_rec h bs (n - 1) in let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let s i = if i = hi then Set.union (s0 i) s_b else s0 i in let m a = if addr <= a && a < addr + len then Some (n - 1) else m0 a in (m, s) [@"opaque_to_smt"] let make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat{n <= Seq.length bs}) : GTot ((int -> option (n:nat{n < Seq.length bs})) & (heaplet_id -> Set.set int)) = make_owns_rec h bs n let rec lemma_make_owns (h:vale_heap) (bs:Seq.seq buffer_info) (n:nat) : Lemma (requires n <= Seq.length bs /\ (forall (i:nat).{:pattern Seq.index bs i} i < Seq.length bs ==> buffer_readable h (Seq.index bs i).bi_buffer) /\ (forall (i1 i2:nat).{:pattern (Seq.index bs i1); (Seq.index bs i2)} i1 < Seq.length bs /\ i2 < Seq.length bs ==> buffer_info_disjoint (Seq.index bs i1) (Seq.index bs i2)) ) (ensures ( let (m, s) = make_owns h bs n in (forall (i:heaplet_id) (a:int).{:pattern Set.mem a (s i)} (Set.mem a (s i) <==> Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (m a) == Some i) /\ (Set.mem a (s i) ==> buffer_info_has_addr_opt (Option.mapTot (fun n -> Seq.index bs n) (m a)) a) /\ (Set.mem a (s i) ==> Set.mem a (Map.domain h.mh)) ) /\ (forall (k:nat) (a:int).{:pattern Set.mem a (s (Seq.index bs k).bi_heaplet)} k < n /\ buffer_info_has_addr (Seq.index bs k) a ==> Set.mem a (s (Seq.index bs k).bi_heaplet)) )) = reveal_opaque (`%make_owns) make_owns; if n = 0 then () else let _ = make_owns h bs (n - 1) in let (m, s) = make_owns h bs n in lemma_make_owns h bs (n - 1); let bi = Seq.index bs (n - 1) in let b = bi.bi_buffer in let hi = bi.bi_heaplet in let addr = Vale.Interop.Heap_s.global_addrs_map b in let len = DV.length (get_downview b.bsrc) in let s_b = set_of_range addr len in let lem1 (a:int) : Lemma (requires Set.mem a s_b) (ensures Set.mem a (Map.domain h.mh)) [SMTPat (Set.mem a (Map.domain h.mh))] = I.addrs_set_mem h.ih b a in let lem2 (i:heaplet_id) (a:int) : Lemma (requires i =!= hi /\ Set.mem a (Set.intersect s_b (s i))) (ensures False) [SMTPat (Set.mem a (s i))] = reveal_opaque (`%addr_map_pred) addr_map_pred in () #push-options "--initial_fuel 1 --max_fuel 1 --initial_ifuel 2 --max_ifuel 2" let rec lemma_loc_mutable_buffers_rec (l:list buffer_info) (s:Seq.seq buffer_info) (n:nat) : Lemma (requires n + List.length l == Seq.length s /\ list_to_seq_post l s n ) (ensures ( let modloc = loc_mutable_buffers l in forall (i:nat).{:pattern Seq.index s i} n <= i /\ i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes modloc (loc_buffer bi.bi_buffer)) )) (decreases l) = match l with \| [] -> () \| h::t -> lemma_loc_mutable_buffers_rec t s (n + 1) #pop-options let lemma_loc_mutable_buffers (l:list buffer_info) : Lemma (ensures ( let s = list_to_seq l in forall (i:nat).{:pattern Seq.index s i} i < Seq.length s ==> ( let bi = Seq.index s i in bi.bi_mutable == Mutable ==> loc_includes (loc_mutable_buffers l) (loc_buffer bi.bi_buffer)) )) = lemma_list_to_seq l; lemma_loc_mutable_buffers_rec l (list_to_seq l) 0 let create_heaplets buffers h1 = let bs = list_to_seq buffers in let modloc = loc_mutable_buffers buffers in let layout1 = h1.vf_layout in let layin1 = layout1.vl_inner in let (hmap, hsets) = make_owns h1.vf_heap bs (Seq.length bs) in let hmap a = Option.mapTot (fun n -> (Seq.index bs n).bi_heaplet) (hmap a) in let l = { vl_heaplets_initialized = true; vl_heaplet_map = hmap; vl_heaplet_sets = hsets; vl_old_heap = h1.vf_heap; vl_buffers = bs; vl_mod_loc = modloc; } in let layout2 = {layout1 with vl_inner = l} in let h2 = { vf_layout = layout2; vf_heap = h1.vf_heap; vf_heaplets = h1.vf_heaplets; } in h2 let lemma_create_heaplets buffers h1 = let bs = list_to_seq buffers in let h2 = create_heaplets buffers h1 in assert (h2.vf_layout.vl_inner.vl_buffers == bs); // REVIEW: why is this necessary, even with extra ifuel? lemma_make_owns h1.vf_heap bs (Seq.length bs); lemma_loc_mutable_buffers buffers; reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let destroy_heaplets h1 = h1 let lemma_destroy_heaplets h1 = () val heap_shift (m1 m2:S.machine_heap) (base:int) (n:nat) : Lemma (requires (forall i. 0 <= i /\ i < n ==> m1.[base + i] == m2.[base + i])) (ensures (forall i. {:pattern (m1.[i])} base <= i /\ i < base + n ==> m1.[i] == m2.[i])) #push-options "--smtencoding.l_arith_repr boxwrap" let heap_shift m1 m2 base n = assert (forall i. base <= i /\ i < base + n ==> m1.[base + (i - base)] == m2.[base + (i - base)]) #pop-options val same_mem_eq_slices64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 8 + 8 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 8) (k * 8 + 8))) let same_mem_eq_slices64 b i v k h1 h2 mem1 mem2 = let t = TUInt64 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up64 (b:buffer64) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 8}) : Lemma (scale8 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint64_view in UV.length_eq vb val same_mem_get_heap_val64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1))}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale8 k in forall (x:int).{:pattern (mem1.[x])} ptr <= x /\ x < ptr + 8 ==> mem1.[x] == mem2.[x])) let same_mem_get_heap_val64 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale8 k in let addr = buffer_addr b h1 in let aux (x:int{ptr <= x /\ x < ptr + 8}) : Lemma (mem1.[x] == mem2.[x]) = let i = x - ptr in let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint64_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices64 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8) (k * 8 + 8)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8) (k * 8 + 8)) in assert (Seq.index s1 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i)); length_up64 b h1 k i; assert (mem1.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 8 + i))); assert (Seq.index s2 i == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i)); length_up64 b h2 k i; assert (mem2.[addr+(scale8 k + i)] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 8 + i))) in Classical.forall_intro aux; assert (forall i. addr + (scale8 k + i) == ptr + i) let rec written_buffer_down64_aux1 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale8 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux1 b i v h base (k+1) h1 mem1 mem2 end let rec written_buffer_down64_aux2 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale8 (i+1) <= j /\ j < base + k * 8 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale8 (i+1) /\ j < base + scale8 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale8 k in same_mem_get_heap_val64 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 8; written_buffer_down64_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down64 (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap) : Lemma (requires List.memP b (IB.ptrs_of_mem (_ih h))) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale8 i) \/ (base + scale8 (i+1) <= j /\ j < base + scale8 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down64_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down64_aux2 b i v h base n (i+1) h1 mem1 mem2 let unwritten_buffer_down (t:base_typ) (b:buffer t{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:base_typ_as_vale_type t) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall (a:b8{List.memP a (IB.ptrs_of_mem (_ih h)) /\ a =!= b}) j. {:pattern mem1.[j]; List.memP a (IB.ptrs_of_mem (_ih h)) \/ mem2.[j]; List.memP a (IB.ptrs_of_mem (_ih h))} let base = (IB.addrs_of_mem (_ih h)) a in j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let aux (a:b8{a =!= b /\ List.memP a (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let base = (IB.addrs_of_mem (_ih h)) a in let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in forall j. j >= base /\ j < base + DV.length (get_downview a.bsrc) ==> mem1.[j] == mem2.[j])) = let db = get_downview a.bsrc in if DV.length db = 0 then () else let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = (IB.addrs_of_mem (_ih h)) a in let s0 = DV.as_seq (IB.hs_of_mem (_ih h)) db in let s1 = DV.as_seq (IB.hs_of_mem (_ih h1)) db in opaque_assert (`%IB.list_disjoint_or_eq) IB.list_disjoint_or_eq IB.list_disjoint_or_eq_def (MB.disjoint a.bsrc b.bsrc); lemma_dv_equal (IB.down_view a.src) a.bsrc (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)); assert (Seq.equal s0 s1); assert (forall (j:int).{:pattern (mem1.[j])} base <= j /\ j < base + Seq.length s0 ==> v_to_typ TUInt8 (Seq.index s0 (j - base)) == mem1.[j]); heap_shift mem1 mem2 base (DV.length db) in Classical.forall_intro aux let store_buffer_down64_mem (b:buffer64{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h))}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale8 i \/ j >= base + scale8 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down64 b i v h; length_t_eq (TUInt64) b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (IB.hs_of_mem (_ih h)) (IB.hs_of_mem (_ih h1)) (IB.ptrs_of_mem (_ih h)) else unwritten_buffer_down TUInt64 b i v h in Classical.forall_intro aux let store_buffer_aux_down64_mem (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 8 ==> mem1.[j] == mem2.[j])) = let t = TUInt64 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale8 i == ptr); assert (buffer_addr b h + scale8 (i+1) == ptr + 8); store_buffer_down64_mem b i v h let store_buffer_aux_down64_mem2 (ptr:int) (v:nat64) (h:vale_heap{writeable_mem64 ptr h}) : Lemma (ensures ( let h1 = store_mem (TUInt64) ptr v h in let mem2 = I.down_mem (_ih h1) in S.get_heap_val64 ptr mem2 == v)) = let t = TUInt64 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index64_get_heap_val64 h1 b mem2 i let in_bounds64 (h:vale_heap) (b:buffer64) (i:nat{i < buffer_length b}) : Lemma (scale8 i + 8 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt64 b let bytes_valid64 ptr h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds64 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7) val same_mem_get_heap_val128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures (let ptr = buffer_addr b h1 + scale16 k in forall i.{:pattern mem1.[i]} i >= ptr /\ i < ptr+16 ==> mem1.[i] == mem2.[i])) val same_mem_eq_slices128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (k:nat{k < buffer_length b}) (h1:vale_heap{List.memP b (IB.ptrs_of_mem (_ih h1)) /\ buffer_writeable b}) (h2:vale_heap{h2 == buffer_write b i v h1}) (mem1:S.machine_heap{IB.correct_down_p (_ih h1) mem1 b}) (mem2:S.machine_heap{IB.correct_down_p (_ih h2) mem2 b}) : Lemma (requires (Seq.index (buffer_as_seq h1 b) k == Seq.index (buffer_as_seq h2 b) k)) (ensures ( k * 16 + 16 <= DV.length (get_downview b.bsrc) /\ Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16) == Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) (get_downview b.bsrc)) (k * 16) (k * 16 + 16))) let same_mem_eq_slices128 b i v k h1 h2 mem1 mem2 = let t = TUInt128 in let db = get_downview b.bsrc in let ub = UV.mk_buffer db (uint_view t) in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; UV.put_sel (IB.hs_of_mem (_ih h1)) ub k; UV.put_sel (IB.hs_of_mem (_ih h2)) ub k; UV.length_eq ub let length_up128 (b:buffer128) (h:vale_heap) (k:nat{k < buffer_length b}) (i:nat{i < 16}) : Lemma (scale16 k + i <= DV.length (get_downview b.bsrc)) = let vb = UV.mk_buffer (get_downview b.bsrc) uint128_view in UV.length_eq vb let same_mem_get_heap_val128 b j v k h1 h2 mem1 mem2 = let ptr = buffer_addr b h1 + scale16 k in let addr = buffer_addr b h1 in let aux (i:nat{ptr <= i /\ i < ptr+16}) : Lemma (mem1.[i] == mem2.[i]) = let db = get_downview b.bsrc in let ub = UV.mk_buffer db uint128_view in UV.as_seq_sel (IB.hs_of_mem (_ih h1)) ub k; UV.as_seq_sel (IB.hs_of_mem (_ih h2)) ub k; same_mem_eq_slices128 b j v k h1 h2 mem1 mem2; let s1 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16) (k * 16 + 16)) in let s2 = (Seq.slice (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16) (k * 16 + 16)) in assert (Seq.index s1 (i - ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr))); length_up128 b h1 k (i-ptr); assert (mem1.[i] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h1)) db) (k * 16 + (i-ptr)))); assert (Seq.index s2 (i-ptr) == Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr))); length_up128 b h2 k (i-ptr); assert (mem2.[addr+(scale16 k + (i-ptr))] == UInt8.v (Seq.index (DV.as_seq (IB.hs_of_mem (_ih h2)) db) (k * 16 + (i-ptr)))); assert (forall i. addr + (scale16 k + (i-ptr)) == i) in Classical.forall_intro aux let in_bounds128 (h:vale_heap) (b:buffer128) (i:nat{i < buffer_length b}) : Lemma (scale16 i + 16 <= DV.length (get_downview b.bsrc)) = length_t_eq TUInt128 b #push-options "--z3rlimit 20" #restart-solver let bytes_valid128 ptr h = reveal_opaque (`%S.valid_addr128) S.valid_addr128; IB.list_disjoint_or_eq_reveal (); let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in in_bounds128 h b i; I.addrs_set_mem (_ih h) b ptr; I.addrs_set_mem (_ih h) b (ptr+1); I.addrs_set_mem (_ih h) b (ptr+2); I.addrs_set_mem (_ih h) b (ptr+3); I.addrs_set_mem (_ih h) b (ptr+4); I.addrs_set_mem (_ih h) b (ptr+5); I.addrs_set_mem (_ih h) b (ptr+6); I.addrs_set_mem (_ih h) b (ptr+7); I.addrs_set_mem (_ih h) b (ptr+8); I.addrs_set_mem (_ih h) b (ptr+9); I.addrs_set_mem (_ih h) b (ptr+10); I.addrs_set_mem (_ih h) b (ptr+11); I.addrs_set_mem (_ih h) b (ptr+12); I.addrs_set_mem (_ih h) b (ptr+13); I.addrs_set_mem (_ih h) b (ptr+14); I.addrs_set_mem (_ih h) b (ptr+15) #pop-options let equiv_load_mem64 ptr h = let t = TUInt64 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in index64_get_heap_val64 h b heap i; lemma_load_mem64 b i h //let low_lemma_valid_mem64 b i h = // lemma_valid_mem64 b i h; // bytes_valid64 (buffer_addr b h + scale8 i) h //let low_lemma_load_mem64 b i h = // lemma_valid_mem64 b i h; // lemma_load_mem64 b i h; // equiv_load_mem64 (buffer_addr b h + scale8 i) h //let same_domain_update64 b i v h = // low_lemma_valid_mem64 b i h; // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale8 i) v (get_heap h) open Vale.X64.BufferViewStore let low_lemma_store_mem64_aux (b:buffer64) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:nat64) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in let h' = store_mem64 (buffer_addr b h + scale8 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale8 i in let heap' = S.update_heap64 ptr v heap in let h' = store_mem64 ptr v h in lemma_store_mem64 b i v h; length_t_eq TUInt64 b; bv_upd_update_heap64 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view64 in assert (UV.upd (_ih h).IB.hs bv i (UInt64.uint_to_t v) == (_ih h').IB.hs) val valid_state_store_mem64_aux: (i:nat) -> (v:nat64) -> (h:vale_heap) -> Lemma (requires writeable_mem64 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h' = store_mem64 i v h in heap' == I.down_mem (_ih h') )) let valid_state_store_mem64_aux i v h = let heap = get_heap h in let heap' = S.update_heap64 i v heap in let h1 = store_mem TUInt64 i v h in store_buffer_aux_down64_mem i v h; store_buffer_aux_down64_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.same_mem_get_heap_val64 i mem1 mem2; Vale.Arch.MachineHeap.correct_update_get64 i v heap; Vale.Arch.MachineHeap.frame_update_heap64 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid64 i h; Vale.Arch.MachineHeap.same_domain_update64 i v heap in aux(); aux2(); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem64_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () #push-options "--z3rlimit 20" #restart-solver let low_lemma_store_mem64 b i v h = lemma_writeable_mem64 b i h; lemma_store_mem64 b i v h; valid_state_store_mem64_aux (buffer_addr b h + scale8 i) v h; let heap = get_heap h in let heap' = S.update_heap64 (buffer_addr b h + scale8 i) v heap in low_lemma_store_mem64_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap64 (buffer_addr b h + scale8 i) v heap; in_bounds64 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' #pop-options #set-options "--z3rlimit 100" #restart-solver let lemma_is_full_update (vfh:vale_full_heap) (h hk hk':vale_heap) (k:heaplet_id) (mh mh' mhk mhk':machine_heap) (mt mt':memtaint) (t:base_typ) (b:buffer t) (ptr:int) (v_size:nat) (index:nat) (v:base_typ_as_vale_type t) (tn:taint) : Lemma (requires vfh.vf_layout.vl_inner.vl_heaplets_initialized /\ mem_inv vfh /\ buffer_readable hk b /\ buffer_writeable b /\ index < Seq.length (buffer_as_seq hk b) /\ mt == vfh.vf_layout.vl_taint /\ h == vfh.vf_heap /\ hk == Map16.sel vfh.vf_heaplets k /\ mh == h.mh /\ mhk == hk.mh /\ ptr == buffer_addr b hk + scale_by v_size index /\ mt' == S.update_n ptr v_size (heap_taint (coerce vfh)) tn /\ hk' == buffer_write b index v hk /\ valid_layout_buffer b vfh.vf_layout hk true /\ valid_taint_buf b hk mt tn /\ is_machine_heap_update mh mh' /\ upd_heap h mh' == buffer_write b index v h /\ is_machine_heap_update mhk mhk' /\ upd_heap hk mhk' == buffer_write b index v hk /\ (forall j.{:pattern mh.[j] \/ mh'.[j]} j < ptr \/ j >= ptr + v_size ==> mh.[j] == mh'.[j]) /\ (forall j.{:pattern mhk.[j] \/ mhk'.[j]} j < ptr \/ j >= ptr + v_size ==> mhk.[j] == mhk'.[j]) /\ 0 <= scale_by v_size index /\ scale_by v_size index + v_size <= DV.length (get_downview b.bsrc) /\ (forall i.{:pattern mh'.[i] \/ mhk'.[i]} i >= ptr /\ i < ptr + v_size ==> mh'.[i] == mhk'.[i]) /\ True ) (ensures is_full_update vfh hk' k mh' mt') = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; let vfh' = coerce (heap_upd (coerce vfh) mh' mt') in let dom_upd = Set.intersect (vfh.vf_layout.vl_inner.vl_heaplet_sets k) (Map.domain mhk) in let mhk'' = Map.concat mhk (Map.restrict dom_upd mh') in assert (Map.equal mhk'' mhk'); let unchanged (j:heaplet_id) : Lemma (requires j =!= k) (ensures Map16.sel vfh'.vf_heaplets j == Map16.sel vfh.vf_heaplets j) [SMTPat (Map16.sel vfh'.vf_heaplets j)] = assert (Map.equal (Map16.sel vfh'.vf_heaplets j).mh (Map16.sel vfh.vf_heaplets j).mh); I.down_up_identity (Map16.sel vfh.vf_heaplets j).ih; () in assert (Map16.equal vfh'.vf_heaplets (Map16.upd vfh.vf_heaplets k hk')); assert (Map.equal mt' mt); Vale.Interop.Heap_s.list_disjoint_or_eq_reveal (); () let low_lemma_store_mem64_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale8 i in let mh' = S.update_heap64 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 8 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap64 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem64 b i v h; low_lemma_store_mem64 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap64 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap64 ptr v hk.mh; in_bounds64 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val64 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt64 b ptr 8 i v t; () val low_lemma_valid_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.valid_addr128 (buffer_addr b h + scale16 i) (get_heap h) ) let low_lemma_valid_mem128 b i h = lemma_valid_mem128 b i h; bytes_valid128 (buffer_addr b h + scale16 i) h val equiv_load_mem128_aux: (ptr:int) -> (h:vale_heap) -> Lemma (requires valid_mem128 ptr h) (ensures load_mem128 ptr h == S.get_heap_val128 ptr (get_heap h)) let equiv_load_mem128_aux ptr h = let t = TUInt128 in let b = get_addr_ptr t ptr h in let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let addr = buffer_addr b h in let contents = DV.as_seq (_ih h).IB.hs (get_downview b.bsrc) in let heap = get_heap h in S.get_heap_val128_reveal (); index128_get_heap_val128 h b heap i; lemma_load_mem128 b i h let equiv_load_mem128 ptr h = equiv_load_mem128_aux ptr h val low_lemma_load_mem128 (b:buffer128) (i:nat) (h:vale_heap) : Lemma (requires i < Seq.length (buffer_as_seq h b) /\ buffer_readable h b ) (ensures S.get_heap_val128 (buffer_addr b h + scale16 i) (get_heap h) == buffer_read b i h ) let low_lemma_load_mem128 b i h = lemma_valid_mem128 b i h; lemma_load_mem128 b i h; equiv_load_mem128_aux (buffer_addr b h + scale16 i) h //let same_domain_update128 b i v h = // low_lemma_valid_mem128 b i h; // Vale.Arch.MachineHeap.same_domain_update128 (buffer_addr b h + scale16 i) v (get_heap h) let low_lemma_store_mem128_aux (b:buffer128) (heap:S.machine_heap) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{buffer_readable h b /\ buffer_writeable b}) : Lemma (requires IB.correct_down_p (_ih h) heap b) (ensures (let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in (_ih h').IB.hs == DV.upd_seq (_ih h).IB.hs (get_downview b.bsrc) (I.get_seq_heap heap' (_ih h).IB.addrs b))) = let ptr = buffer_addr b h + scale16 i in let heap' = S.update_heap128 ptr v heap in let h' = store_mem128 ptr v h in lemma_store_mem128 b i v h; length_t_eq TUInt128 b; bv_upd_update_heap128 b heap i v (_ih h); let db = get_downview b.bsrc in let bv = UV.mk_buffer db Vale.Interop.Views.up_view128 in assert (UV.upd (_ih h).IB.hs bv i v == (_ih h').IB.hs) val valid_state_store_mem128_aux (i:int) (v:quad32) (h:vale_heap) : Lemma (requires writeable_mem128 i h) (ensures ( let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h' = store_mem128 i v h in heap' == I.down_mem (_ih h') )) #restart-solver let rec written_buffer_down128_aux1 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (k:nat) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j.{:pattern (mem1.[j]) \/ (mem2.[j])} base <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem1.[j])} j >= base /\ j < base + scale16 i ==> mem1.[j] == mem2.[j])) (decreases %[i-k]) = if k >= i then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux1 b i v h base (k+1) h1 mem1 mem2 end #restart-solver let rec written_buffer_down128_aux2 (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) (base:nat{base == buffer_addr b h}) (n:nat{n == buffer_length b}) (k:nat{k > i}) (h1:vale_heap{h1 == buffer_write b i v h}) (mem1:S.machine_heap{IB.correct_down (_ih h) mem1}) (mem2:S.machine_heap{IB.correct_down (_ih h1) mem2 /\ (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} base + scale16 (i+1) <= j /\ j < base + k * 16 ==> mem1.[j] == mem2.[j])}) : Lemma (ensures (forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} j >= base + scale16 (i+1) /\ j < base + scale16 n ==> mem1.[j] == mem2.[j])) (decreases %[n-k]) = if k >= n then () else begin let ptr = base + scale16 k in same_mem_get_heap_val128 b i v k h h1 mem1 mem2; heap_shift mem1 mem2 ptr 16; written_buffer_down128_aux2 b i v h base n (k+1) h1 mem1 mem2 end let written_buffer_down128 (b:buffer128) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap) : Lemma (requires List.memP b (_ih h).IB.ptrs /\ buffer_writeable b) (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in forall j. {:pattern (mem1.[j]) \/ (mem2.[j])} (base <= j /\ j < base + scale16 i) \/ (base + scale16 (i+1) <= j /\ j < base + scale16 n) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in written_buffer_down128_aux1 b i v h base 0 h1 mem1 mem2; written_buffer_down128_aux2 b i v h base n (i+1) h1 mem1 mem2 let store_buffer_down128_mem (b:buffer128{buffer_writeable b}) (i:nat{i < buffer_length b}) (v:quad32) (h:vale_heap{List.memP b (_ih h).IB.ptrs}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in forall (j:int). {:pattern mem1.[j] \/ mem2.[j]} j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j])) = let mem1 = I.down_mem (_ih h) in let h1 = buffer_write b i v h in let mem2 = I.down_mem (_ih h1) in let base = buffer_addr b h in let n = buffer_length b in let aux (j:int) : Lemma (j < base + scale16 i \/ j >= base + scale16 (i+1) ==> mem1.[j] == mem2.[j]) = I.addrs_set_lemma_all (); if j >= base && j < base + DV.length (get_downview b.bsrc) then begin written_buffer_down128 b i v h; length_t_eq TUInt128 b end else if not (I.valid_addr (_ih h) j) then I.same_unspecified_down (_ih h).IB.hs (_ih h1).IB.hs (_ih h).IB.ptrs else unwritten_buffer_down TUInt128 b i v h in Classical.forall_intro aux let store_buffer_aux_down128_mem (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let mem1 = I.down_mem (_ih h) in let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in forall j. {:pattern mem1.[j] \/ mem2.[j]} j < ptr \/ j >= ptr + 16 ==> mem1.[j] == mem2.[j])) = let t = TUInt128 in let h1 = store_mem t ptr v h in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in store_buffer_write t ptr v h; assert (buffer_addr b h + scale16 i == ptr); assert (buffer_addr b h + scale16 (i+1) == ptr + 16); store_buffer_down128_mem b i v h let store_buffer_aux_down128_mem2 (ptr:int) (v:quad32) (h:vale_heap{writeable_mem128 ptr h}) : Lemma (ensures ( let h1 = store_mem TUInt128 ptr v h in let mem2 = I.down_mem (_ih h1) in Mkfour (S.get_heap_val32 ptr mem2) (S.get_heap_val32 (ptr+4) mem2) (S.get_heap_val32 (ptr+8) mem2) (S.get_heap_val32 (ptr+12) mem2) == v)) = let t = TUInt128 in let b = Some?.v (find_writeable_buffer t ptr h) in length_t_eq t b; let i = get_addr_in_ptr t (buffer_length b) (buffer_addr b h) ptr 0 in let h1 = store_mem t ptr v h in let mem2 = I.down_mem (_ih h1) in store_buffer_write t ptr v h; assert (Seq.index (buffer_as_seq h1 b) i == v); index128_get_heap_val128 h1 b mem2 i let valid_state_store_mem128_aux i v h = let heap = get_heap h in let heap' = S.update_heap128 i v heap in let h1 = store_mem TUInt128 i v h in store_buffer_aux_down128_mem i v h; store_buffer_aux_down128_mem2 i v h; let mem1 = heap' in let mem2 = I.down_mem (_ih h1) in let aux () : Lemma (forall j. mem1.[j] == mem2.[j]) = Vale.Arch.MachineHeap.correct_update_get128 i v heap; Vale.X64.Machine_Semantics_s.get_heap_val128_reveal (); Vale.Arch.MachineHeap.same_mem_get_heap_val32 i mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+4) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+8) mem1 mem2; Vale.Arch.MachineHeap.same_mem_get_heap_val32 (i+12) mem1 mem2; Vale.Arch.MachineHeap.frame_update_heap128 i v heap in let aux2 () : Lemma (Set.equal (Map.domain mem1) (Map.domain mem2)) = bytes_valid128 i h; Vale.Arch.MachineHeap.same_domain_update128 i v heap in aux (); aux2 (); Map.lemma_equal_intro mem1 mem2 let low_lemma_load_mem128_full b i vfh t hid = reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; () let low_lemma_store_mem128 b i v h = lemma_valid_mem128 b i h; lemma_store_mem128 b i v h; valid_state_store_mem128_aux (buffer_addr b h + scale16 i) v h; let heap = get_heap h in let heap' = S.update_heap128 (buffer_addr b h + scale16 i) v heap in let h' = store_mem128 (buffer_addr b h + scale16 i) v h in low_lemma_store_mem128_aux b heap i v h; Vale.Arch.MachineHeap.frame_update_heap128 (buffer_addr b h + scale16 i) v heap; in_bounds128 h b i; I.addrs_set_lemma_all (); I.update_buffer_up_mem (_ih h) b heap heap' let low_lemma_store_mem128_full b i v vfh t hid = let (h, mt, hk) = (vfh.vf_heap, vfh.vf_layout.vl_taint, Map16.get vfh.vf_heaplets hid) in let ptr = buffer_addr b hk + scale16 i in let mh' = S.update_heap128 ptr v (heap_get (coerce vfh)) in let mt' = S.update_n ptr 16 (heap_taint (coerce vfh)) t in let hk' = buffer_write b i v hk in let mhk' = S.update_heap128 ptr v (get_heap hk) in reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_store_mem128 b i v h; low_lemma_store_mem128 b i v (Map16.get vfh.vf_heaplets hid); Vale.Arch.MachineHeap.frame_update_heap128 ptr v h.mh; Vale.Arch.MachineHeap.frame_update_heap128 ptr v hk.mh; in_bounds128 hk b i; Vale.Arch.MachineHeap.same_mem_get_heap_val128 ptr mh' mhk'; lemma_is_full_update vfh h hk hk' hid h.mh mh' hk.mh mhk' mt mt' TUInt128 b ptr 16 i v t; () #push-options "--smtencoding.l_arith_repr boxwrap" let low_lemma_valid_mem128_64 b i h = reveal_opaque (`%S.valid_addr64) S.valid_addr64; reveal_opaque (`%S.valid_addr128) S.valid_addr128; low_lemma_valid_mem128 b i h; let ptr = buffer_addr b h + scale16 i in assert (buffer_addr b h + scale16 i + 8 = ptr + 8) #pop-options open Vale.Def.Words.Two_s open Vale.Def.Words.Four_s let low_lemma_load_mem128_lo64 b i h = low_lemma_load_mem128 b i h; lo64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () let low_lemma_load_mem128_hi64 b i h = low_lemma_load_mem128 b i h; hi64_reveal (); S.get_heap_val128_reveal (); S.get_heap_val64_reveal (); S.get_heap_val32_reveal () //let same_domain_update128_64 b i v h = // low_lemma_valid_mem128_64 b i (_ih h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i) v (get_heap h); // Vale.Arch.MachineHeap.same_domain_update64 (buffer_addr b h + scale16 i + 8) v (get_heap h) open Vale.Def.Types_s let frame_get_heap32 (ptr:int) (mem1 mem2:S.machine_heap) : Lemma (requires (forall i. i >= ptr /\ i < ptr + 4 ==> mem1.[i] == mem2.[i])) (ensures S.get_heap_val32 ptr mem1 == S.get_heap_val32 ptr mem2) = S.get_heap_val32_reveal () let update_heap128_lo (ptr:int) (v:quad32) (mem:S.machine_heap) : Lemma (requires S.valid_addr128 ptr mem /\ v.hi2 == S.get_heap_val32 (ptr+8) mem /\ v.hi3 == S.get_heap_val32 (ptr+12) mem ) (ensures S.update_heap128 ptr v mem == S.update_heap32 (ptr+4) v.lo1 (S.update_heap32 ptr v.lo0 mem)) = reveal_opaque (`%S.valid_addr128) S.valid_addr128; S.update_heap128_reveal (); let mem0 = S.update_heap32 ptr v.lo0 mem in let mem1 = S.update_heap32 (ptr+4) v.lo1 mem0 in Vale.Arch.MachineHeap.frame_update_heap32 ptr v.lo0 mem; Vale.Arch.MachineHeap.frame_update_heap32 (ptr+4) v.lo1 mem0; Vale.Arch.MachineHeap.same_domain_update32 ptr v.lo0 mem; Vale.Arch.MachineHeap.same_domain_update32 (ptr+4) v.lo1 mem0; frame_get_heap32 (ptr+8) mem mem1; frame_get_heap32 (ptr+12) mem mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr+8) mem1; Vale.Arch.MachineHeap.update_heap32_get_heap32 (ptr+12) mem1	{ "checked_file": "/", "dependencies": [ "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.BufferViewStore.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Memory.fst.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.Lib.BufferViewHelpers.fst.checked", "Vale.Interop.Views.fsti.checked", "Vale.Interop.Heap_s.fst.checked", "Vale.Interop.Base.fst.checked", "Vale.Interop.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Words.Two_s.fsti.checked", "Vale.Def.Words.Four_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Def.Opaque_s.fsti.checked", "Vale.Arch.MachineHeap.fsti.checked", "Vale.Arch.HeapImpl.fsti.checked", "Vale.Arch.Heap.fsti.checked", "prims.fst.checked", "LowStar.Monotonic.Buffer.fsti.checked", "LowStar.BufferView.Up.fsti.checked", "LowStar.BufferView.Down.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.UInt64.fsti.checked", "FStar.Set.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Option.fst.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked", "FStar.List.fst.checked", "FStar.Classical.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.Memory_Sems.fst" }	[ { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.BufferViewStore", "short_module": null }, { "abbrev": true, "full_module": "Vale.Interop.Base", "short_module": "IB" }, { "abbrev": false, "full_module": "Vale.Lib.BufferViewHelpers", "short_module": null }, { "abbrev": true, "full_module": "LowStar.BufferView.Down", "short_module": "DV" }, { "abbrev": true, "full_module": "LowStar.BufferView.Up", "short_module": "UV" }, { "abbrev": true, "full_module": "LowStar.Monotonic.Buffer", "short_module": "MB" }, { "abbrev": true, "full_module": "Vale.Interop", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Opaque_s", "short_module": null }, { "abbrev": true, "full_module": "Vale.Lib.Map16", "short_module": "Map16" }, { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Vale.Lib.Seqs", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.MachineHeap_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Heap", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	b: Vale.PPC64LE.Memory.buffer128 -> i: Prims.nat -> vfh: Vale.Arch.HeapImpl.vale_full_heap -> t: Vale.Arch.HeapTypes_s.taint -> hid: Vale.Arch.HeapImpl.heaplet_id -> FStar.Pervasives.Lemma (requires (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in i < FStar.Seq.Base.length (Vale.PPC64LE.Memory.buffer_as_seq h b) /\ Vale.PPC64LE.Memory.buffer_readable h b /\ Vale.PPC64LE.Memory.valid_layout_buffer b (Mkvale_full_heap?.vf_layout vfh) h false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b h mt t /\ Vale.PPC64LE.Memory.mem_inv vfh) <: Type0)) (ensures (let _ = Vale.Lib.Map16.get (Mkvale_full_heap?.vf_heaplets vfh) hid, Mkvale_heap_layout?.vl_taint (Mkvale_full_heap?.vf_layout vfh) in (let FStar.Pervasives.Native.Mktuple2 #_ #_ h mt = _ in let ptr = Vale.PPC64LE.Memory.buffer_addr b h + Vale.PPC64LE.Memory.scale16 i in Vale.PPC64LE.Memory_Sems.is_full_read (Mkvale_full_heap?.vf_heap vfh) h b i /\ Vale.Arch.MachineHeap_s.valid_addr64 ptr (Vale.Arch.Heap.heap_get (Vale.PPC64LE.Memory_Sems.coerce vfh)) /\ Vale.Arch.MachineHeap_s.valid_addr64 (ptr + 8) (Vale.Arch.Heap.heap_get (Vale.PPC64LE.Memory_Sems.coerce vfh)) /\ Vale.PPC64LE.Memory.valid_mem128 ptr (Mkvale_full_heap?.vf_heap vfh) /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (Mkvale_full_heap?.vf_heap vfh) mt t) <: Type0))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Vale.PPC64LE.Memory.buffer128", "Prims.nat", "Vale.Arch.HeapImpl.vale_full_heap", "Vale.Arch.HeapTypes_s.taint", "Vale.Arch.HeapImpl.heaplet_id", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_valid_mem128_64", "Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_heap", "FStar.Pervasives.reveal_opaque", "Vale.Arch.HeapTypes_s.base_typ", "Vale.PPC64LE.Memory.buffer", "Vale.Arch.HeapImpl.vale_heap_layout", "FStar.Pervasives.Native.option", "Prims.bool", "Vale.Def.Prop_s.prop0", "Vale.PPC64LE.Memory.valid_layout_buffer_id" ]	[]	true	false	true	false	false	let low_lemma_load_mem128_lo_hi_full b i vfh t hid =	reveal_opaque (`%valid_layout_buffer_id) valid_layout_buffer_id; low_lemma_valid_mem128_64 b i vfh.vf_heap; ()	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_wpProof_VPclmulqdq	val va_wpProof_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_VPclmulqdq : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> src1Hi:bool -> src2Hi:bool -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 82, "start_col": 0, "start_line": 74 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> src1Hi: Prims.bool -> src2Hi: Prims.bool -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Prims.bool", "Vale.X64.Decls.va_state", "Prims.unit", "Vale.X64.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.X64.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.va_Mod_flags", "Vale.X64.QuickCode.va_mod_xmm", "Prims.Nil", "Prims._assert", "Vale.X64.Decls.va_state_eq", "Vale.X64.Decls.va_update_flags", "Vale.X64.Decls.va_update_ok", "Vale.X64.Decls.va_update_operand_xmm", "Vale.X64.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.X64.State.vale_state", "Vale.X64.InsAes.va_lemma_VPclmulqdq", "Vale.X64.InsAes.va_code_VPclmulqdq" ]	[]	false	false	false	false	false	let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k =	let va_sM, va_f0 = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.flatten	val flatten: list (list 'a) -> Tot (list 'a)	val flatten: list (list 'a) -> Tot (list 'a)	let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 38, "end_line": 145, "start_col": 0, "start_line": 143 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list (Prims.list 'a) -> Prims.list 'a	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.Nil", "FStar.List.Tot.Base.append", "FStar.List.Tot.Base.flatten" ]	[ "recursion" ]	false	false	false	true	false	let rec flatten l =	match l with \| [] -> [] \| hd :: tl -> append hd (flatten tl)	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_wp_AESNI_imc	val va_wp_AESNI_imc (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	val va_wp_AESNI_imc (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0	let va_wp_AESNI_imc (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.AES.AES_s.inv_mix_columns_LE (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 83, "end_line": 376, "start_col": 0, "start_line": 371 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec dst src = (va_ttrue ()) val va_lemma_AESNI_dec : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec) (va_code_AESNI_dec dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec (va_code_AESNI_dec dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec dst src)) = (va_QProc (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec dst src) (va_wpProof_AESNI_dec dst src)) //-- //-- AESNI_dec_last val va_code_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec_last dst src = (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec_last dst src = (va_ttrue ()) val va_lemma_AESNI_dec_last : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec_last dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec_last) (va_code_AESNI_dec_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec_last (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec_last dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec_last dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec_last (va_code_AESNI_dec_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec_last (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec_last dst src)) = (va_QProc (va_code_AESNI_dec_last dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec_last dst src) (va_wpProof_AESNI_dec_last dst src)) //-- //-- AESNI_imc val va_code_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_imc dst src = (mk_ins (make_instr (I.ins_AESNI_imc) (OReg dst) (OReg src))) val va_codegen_success_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_imc dst src = (va_ttrue ()) val va_lemma_AESNI_imc : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_imc dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.AES.AES_s.inv_mix_columns_LE (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_imc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_imc) (va_code_AESNI_imc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_imc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_imc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> va_s0: Vale.X64.Decls.va_state -> va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0) -> Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_state", "Prims.unit", "Prims.l_and", "Vale.X64.Decls.va_is_dst_xmm", "Vale.X64.Decls.va_is_src_xmm", "Prims.b2t", "Vale.X64.Decls.va_get_ok", "Vale.X64.CPU_Features_s.aesni_enabled", "Prims.l_Forall", "Vale.X64.Decls.va_value_xmm", "Vale.X64.Flags.t", "Prims.l_imp", "Prims.eq2", "Vale.Def.Types_s.quad32", "Vale.X64.Decls.va_eval_xmm", "Vale.AES.AES_s.inv_mix_columns_LE", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_upd_flags", "Vale.X64.Decls.va_upd_operand_xmm" ]	[]	false	false	false	true	true	let va_wp_AESNI_imc (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0)) : Type0 =	(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst: va_value_xmm) (va_x_efl: Vale.X64.Flags.t). let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.AES.AES_s.inv_mix_columns_LE (va_eval_xmm va_s0 src) ==> va_k va_sM (())))	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.mem_filter_forall	val mem_filter_forall (#a:Type) (f: (a -> Tot bool)) (l: list a) : Lemma (requires True) (ensures (forall x . memP x (filter f l) ==> f x)) [SMTPat (filter f l)]	val mem_filter_forall (#a:Type) (f: (a -> Tot bool)) (l: list a) : Lemma (requires True) (ensures (forall x . memP x (filter f l) ==> f x)) [SMTPat (filter f l)]	let mem_filter_forall f l = FStar.Classical.ghost_lemma (mem_filter f l)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 72, "end_line": 296, "start_col": 0, "start_line": 296 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x) (* [fold_right_gtot] is just like [fold_right], except `f` is a ghost function *) let rec fold_right_gtot (#a:Type) (#b:Type) (l:list a) (f:a -> b -> GTot b) (x:b) : GTot b = match l with \| [] -> x \| hd::tl -> f hd (fold_right_gtot tl f x) ( We define map in terms of fold, to share simple lemmas ) let map_gtot #a #b (f:a -> GTot b) (x:list a) : GTot (list b) = fold_right_gtot x (fun x tl -> f x :: tl) [] (* [fold_left2 f x [y1; y2; ...; yn] [z1; z2; ...; zn]] computes (f (... (f x y1 z1) y2 z2) ... yn zn). Requires, at type-checking time, [f] to be a pure total function, and the lists [y1; y2; ...; yn] and [z1; z2; ...; zn] to have the same lengths. Named as in: OCaml ) val fold_left2 : f:('a -> 'b -> 'c -> Tot 'a) -> accu:'a -> l1:(list 'b) -> l2:(list 'c) -> Pure 'a (requires (length l1 == length l2)) (ensures (fun _ -> True)) (decreases l1) let rec fold_left2 f accu l1 l2 = match (l1, l2) with \| ([], []) -> accu \| (a1::l1, a2::l2) -> fold_left2 f (f accu a1 a2) l1 l2 (* Propositional membership (as in Coq). Does not require decidable equality. ) (* [memP x l] holds if, and only if, [x] appears as an element of [l]. Similar to: List.In in Coq. ) let rec memP (#a: Type) (x: a) (l: list a) : Tot Type0 = match l with \| [] -> False \| y :: q -> x == y \/ memP x q (* List searching ) ( [mem x l] returns [true] if, and only if, [x] appears as an element of [l]. Requires, at type-checking time, the type of elements of [l] to have decidable equality. Named as in: OCaml. See also: List.In in Coq, which is propositional. ) val mem: #a:eqtype -> a -> list a -> Tot bool let rec mem #a x = function \| [] -> false \| hd::tl -> if hd = x then true else mem x tl (* [contains x l] returns [true] if, and only if, [x] appears as an element of [l]. Requires, at type-checking time, the type of elements of [l] to have decidable equality. It is equivalent to: [mem x l]. TODO: should we rather swap the order of arguments? ) let contains : #a:eqtype -> a -> list a -> Tot bool = mem (* [existsb f l] returns [true] if, and only if, there exists some element [x] in [l] such that [f x] holds. ) val existsb: #a:Type -> f:(a -> Tot bool) -> list a -> Tot bool let rec existsb #a f l = match l with \| [] -> false \| hd::tl -> if f hd then true else existsb f tl (* [find f l] returns [Some x] for some element [x] appearing in [l] such that [f x] holds, or [None] only if no such [x] exists. ) val find: #a:Type -> f:(a -> Tot bool) -> list a -> Tot (option (x:a{f x})) let rec find #a f l = match l with \| [] -> None #(x:a{f x}) //These type annotations are only present because it makes bootstrapping go much faster \| hd::tl -> if f hd then Some #(x:a{f x}) hd else find f tl (* Filtering elements of a list [l] through a Boolean pure total predicate [f] ) (* [filter f l] returns [l] with all elements [x] such that [f x] does not hold removed. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val filter : #a: Type -> f:(a -> Tot bool) -> l: list a -> Tot (m:list a{forall x. memP x m ==> f x}) let rec filter #a f = function \| [] -> [] \| hd::tl -> if f hd then hd::filter f tl else filter f tl (* Postcondition on [filter f l]: for any element [x] of [filter f l], [f x] holds. Requires, at type-checking time, [f] to be a pure total function.) val mem_filter (#a:Type) (f: (a -> Tot bool)) (l: list a) (x: a) : Lemma (requires (memP x (filter f l))) (ensures (f x)) let mem_filter f l x = () (* Postcondition on [filter f l]: stated with [forall]: for any element [x] of [filter f l], [f x] holds. Requires, at type-checking time, [f] to be a pure total function. *) val mem_filter_forall (#a:Type) (f: (a -> Tot bool)) (l: list a) : Lemma (requires True) (ensures (forall x . memP x (filter f l) ==> f x))	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: a -> Prims.bool) -> l: Prims.list a -> FStar.Pervasives.Lemma (ensures forall (x: a). FStar.List.Tot.Base.memP x (FStar.List.Tot.Base.filter f l) ==> f x) [SMTPat (FStar.List.Tot.Base.filter f l)]	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.bool", "Prims.list", "FStar.Classical.ghost_lemma", "FStar.List.Tot.Base.memP", "FStar.List.Tot.Base.filter", "Prims.unit", "Prims.b2t", "FStar.List.Tot.Base.mem_filter" ]	[]	false	false	true	false	false	let mem_filter_forall f l =	FStar.Classical.ghost_lemma (mem_filter f l)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.fold_left	val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l)	val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l)	let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 37, "end_line": 189, "start_col": 0, "start_line": 187 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: 'a -> _: 'b -> 'a) -> x: 'a -> l: Prims.list 'b -> Prims.Tot 'a	Prims.Tot	[ "total", "" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.fold_left" ]	[ "recursion" ]	false	false	false	true	false	let rec fold_left f x l =	match l with \| [] -> x \| hd :: tl -> fold_left f (f x hd) tl	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_code_VAESNI_enc	val va_code_VAESNI_enc : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code	val va_code_VAESNI_enc : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code	let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2)))	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 77, "end_line": 120, "start_col": 0, "start_line": 119 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src1: Vale.X64.Decls.va_operand_xmm -> src2: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Taint_Semantics.mk_ins", "Vale.X64.InsLemmas.make_instr", "Prims.Cons", "Vale.X64.Instruction_s.instr_out", "Vale.X64.Instruction_s.out", "Vale.X64.Instruction_s.opXmm", "Prims.Nil", "Vale.X64.Instruction_s.instr_operand", "Vale.X64.Instruction_s.PreserveFlags", "Vale.X64.Instructions_s.ins_VAESNI_enc", "Vale.X64.Machine_s.OReg", "Vale.X64.Machine_s.quad32", "Vale.X64.Machine_s.reg_xmm", "Vale.X64.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_VAESNI_enc dst src1 src2 =	(mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2)))	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.map	val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b)	val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b)	let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 26, "end_line": 153, "start_col": 0, "start_line": 151 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: 'a -> 'b) -> x: Prims.list 'a -> Prims.list 'b	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.Nil", "Prims.Cons", "FStar.List.Tot.Base.map" ]	[ "recursion" ]	false	false	false	true	false	let rec map f x =	match x with \| [] -> [] \| a :: tl -> f a :: map f tl	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.fold_right	val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b	val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b	let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 38, "end_line": 197, "start_col": 0, "start_line": 195 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: 'a -> _: 'b -> 'b) -> l: Prims.list 'a -> x: 'b -> 'b	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.fold_right" ]	[ "recursion" ]	false	false	false	true	false	let rec fold_right f l x =	match l with \| [] -> x \| hd :: tl -> f hd (fold_right f tl x)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.fold_right_gtot	val fold_right_gtot (#a #b: Type) (l: list a) (f: (a -> b -> GTot b)) (x: b) : GTot b	val fold_right_gtot (#a #b: Type) (l: list a) (f: (a -> b -> GTot b)) (x: b) : GTot b	let rec fold_right_gtot (#a:Type) (#b:Type) (l:list a) (f:a -> b -> GTot b) (x:b) : GTot b = match l with \| [] -> x \| hd::tl -> f hd (fold_right_gtot tl f x)	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 45, "end_line": 205, "start_col": 0, "start_line": 201 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x) (* [fold_right_gtot] is just like [fold_right], except `f` is	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: Prims.list a -> f: (_: a -> _: b -> Prims.GTot b) -> x: b -> Prims.GTot b	Prims.GTot	[ "sometrivial" ]	[]	[ "Prims.list", "FStar.List.Tot.Base.fold_right_gtot" ]	[ "recursion" ]	false	false	false	false	false	let rec fold_right_gtot (#a #b: Type) (l: list a) (f: (a -> b -> GTot b)) (x: b) : GTot b =	match l with \| [] -> x \| hd :: tl -> f hd (fold_right_gtot tl f x)	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.mapi_init	val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b)	val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b)	let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1))	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 48, "end_line": 162, "start_col": 0, "start_line": 160 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	f: (_: Prims.int -> _: 'a -> 'b) -> l: Prims.list 'a -> i: Prims.int -> Prims.list 'b	Prims.Tot	[ "total" ]	[]	[ "Prims.int", "Prims.list", "Prims.Nil", "Prims.Cons", "FStar.List.Tot.Base.mapi_init", "Prims.op_Addition" ]	[ "recursion" ]	false	false	false	true	false	let rec mapi_init f l i =	match l with \| [] -> [] \| hd :: tl -> (f i hd) :: (mapi_init f tl (i + 1))	false
FStar.List.Tot.Base.fst	FStar.List.Tot.Base.memP	val memP (#a: Type) (x: a) (l: list a) : Tot Type0	val memP (#a: Type) (x: a) (l: list a) : Tot Type0	let rec memP (#a: Type) (x: a) (l: list a) : Tot Type0 = match l with \| [] -> False \| y :: q -> x == y \/ memP x q	{ "file_name": "ulib/FStar.List.Tot.Base.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 32, "end_line": 231, "start_col": 0, "start_line": 228 }	(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) (* This module defines all pure and total operations on lists that can be used in specifications. It is implemented by FStar_List_Tot_Base.ml, any functional change and/or the addition of new functions MUST be reflected there. @summary Pure total operations on lists ) module FStar.List.Tot.Base (* Base operations ) (* [isEmpty l] returns [true] if and only if [l] is empty ) val isEmpty: list 'a -> Tot bool let isEmpty l = match l with \| [] -> true \| _ -> false (* [hd l] returns the first element of [l]. Requires [l] to be nonempty, at type-checking time. Named as in: OCaml, F#, Coq ) val hd: l:list 'a{Cons? l} -> Tot 'a let hd = function \| hd::_ -> hd (* [tail l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Similar to: tl in OCaml, F#, Coq ) val tail: l:list 'a {Cons? l} -> Tot (list 'a) let tail = function \| _::tl -> tl (* [tl l] returns [l] without its first element. Requires, at type-checking time, that [l] be nonempty. Named as in: OCaml, F#, Coq ) val tl: l:list 'a {Cons? l} -> Tot (list 'a) let tl = tail (* [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val last: l:list 'a {Cons? l} -> Tot 'a let rec last = function \| [hd] -> hd \| _::tl -> last tl (* [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell ) val init: l:list 'a {Cons? l} -> Tot (list 'a) let rec init = function \| [_] -> [] \| hd::tl -> hd::(init tl) (* [length l] returns the total number of elements in [l]. Named as in: OCaml, F#, Coq ) val length: list 'a -> Tot nat let rec length = function \| [] -> 0 \| _::tl -> 1 + length tl (* [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or [None] otherwise. Named as in: OCaml, F#, Coq ) val nth: list 'a -> nat -> Tot (option 'a) let rec nth l n = match l with \| [] -> None \| hd::tl -> if n = 0 then Some hd else nth tl (n - 1) (* [index l n] returns the [n]-th element in list [l] (with the first element being the 0-th). Requires, at type-checking time, that [l] be of length at least [n+1]. ) val index: #a:Type -> l:list a -> i:nat{i < length l} -> Tot a let rec index #a (l: list a) (i:nat{i < length l}): Tot a = if i = 0 then hd l else index (tl l) (i - 1) (* [count x l] returns the number of occurrences of [x] in [l]. Requires, at type-checking time, the type of [a] to have equality defined. Similar to: [List.count_occ] in Coq. ) val count: #a:eqtype -> a -> list a -> Tot nat let rec count #a x = function \| [] -> 0 \| hd::tl -> if x=hd then 1 + count x tl else count x tl (* [rev_acc l1 l2] appends the elements of [l1] to the beginning of [l2], in reverse order. It is equivalent to [append (rev l1) l2], but is tail-recursive. Similar to: [List.rev_append] in OCaml, Coq. ) val rev_acc: list 'a -> list 'a -> Tot (list 'a) let rec rev_acc l acc = match l with \| [] -> acc \| hd::tl -> rev_acc tl (hd::acc) (* [rev l] returns the list [l] in reverse order. Named as in: OCaml, F#, Coq. ) val rev: list 'a -> Tot (list 'a) let rev l = rev_acc l [] (* [append l1 l2] appends the elements of [l2] to the end of [l1]. Named as: OCaml, F#. Similar to: [List.app] in Coq. ) val append: list 'a -> list 'a -> Tot (list 'a) let rec append x y = match x with \| [] -> y \| a::tl -> a::append tl y (* Defines notation [@@] for [append], as in OCaml, F# . ) let op_At x y = append x y (* [snoc (l, x)] adds [x] to the end of the list [l]. Note: We use an uncurried [snoc (l, x)] instead of the curried [snoc l x]. This is intentional. If [snoc] takes a pair instead of 2 arguments, it allows for a better pattern on [lemma_unsnoc_snoc], which connects [snoc] and [unsnoc]. In particular, if we had two arguments, then either the pattern would either be too restrictive or would lead to over-triggering. More context for this can be seen in the (collapsed and uncollapsed) comments at https://github.com/FStarLang/FStar/pull/1560 ) val snoc: (list 'a 'a) -> Tot (list 'a) let snoc (l, x) = append l [x] (** [flatten l], where [l] is a list of lists, returns the list of the elements of the lists in [l], preserving their order. Named as in: OCaml, Coq. ) val flatten: list (list 'a) -> Tot (list 'a) let rec flatten l = match l with \| [] -> [] \| hd::tl -> append hd (flatten tl) (* [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq, F# ) val map: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let rec map f x = match x with \| [] -> [] \| a::tl -> f a::map f tl (* [mapi_init f l n] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. ) val mapi_init: (int -> 'a -> Tot 'b) -> list 'a -> int -> Tot (list 'b) let rec mapi_init f l i = match l with \| [] -> [] \| hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (* [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml ) val mapi: (int -> 'a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapi f l = mapi_init f l 0 (* [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. Requires, at type-checking time, [f] to be a pure total function. ) val concatMap: ('a -> Tot (list 'b)) -> list 'a -> Tot (list 'b) let rec concatMap f = function \| [] -> [] \| a::tl -> let fa = f a in let ftl = concatMap f tl in append fa ftl (* [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq. ) val fold_left: ('a -> 'b -> Tot 'a) -> 'a -> l:list 'b -> Tot 'a (decreases l) let rec fold_left f x l = match l with \| [] -> x \| hd::tl -> fold_left f (f x hd) tl (* [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). Requires, at type-checking time, [f] to be a pure total function. Named as in: OCaml, Coq ) val fold_right: ('a -> 'b -> Tot 'b) -> list 'a -> 'b -> Tot 'b let rec fold_right f l x = match l with \| [] -> x \| hd::tl -> f hd (fold_right f tl x) (* [fold_right_gtot] is just like [fold_right], except `f` is a ghost function *) let rec fold_right_gtot (#a:Type) (#b:Type) (l:list a) (f:a -> b -> GTot b) (x:b) : GTot b = match l with \| [] -> x \| hd::tl -> f hd (fold_right_gtot tl f x) ( We define map in terms of fold, to share simple lemmas ) let map_gtot #a #b (f:a -> GTot b) (x:list a) : GTot (list b) = fold_right_gtot x (fun x tl -> f x :: tl) [] (* [fold_left2 f x [y1; y2; ...; yn] [z1; z2; ...; zn]] computes (f (... (f x y1 z1) y2 z2) ... yn zn). Requires, at type-checking time, [f] to be a pure total function, and the lists [y1; y2; ...; yn] and [z1; z2; ...; zn] to have the same lengths. Named as in: OCaml ) val fold_left2 : f:('a -> 'b -> 'c -> Tot 'a) -> accu:'a -> l1:(list 'b) -> l2:(list 'c) -> Pure 'a (requires (length l1 == length l2)) (ensures (fun _ -> True)) (decreases l1) let rec fold_left2 f accu l1 l2 = match (l1, l2) with \| ([], []) -> accu \| (a1::l1, a2::l2) -> fold_left2 f (f accu a1 a2) l1 l2 (* Propositional membership (as in Coq). Does not require decidable equality. ) (* [memP x l] holds if, and only if, [x] appears as an	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Classical.fsti.checked" ], "interface_file": false, "source_file": "FStar.List.Tot.Base.fst" }	[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: a -> l: Prims.list a -> Type0	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Prims.l_False", "Prims.l_or", "Prims.eq2", "FStar.List.Tot.Base.memP" ]	[ "recursion" ]	false	false	false	true	true	let rec memP (#a: Type) (x: a) (l: list a) : Tot Type0 =	match l with \| [] -> False \| y :: q -> x == y \/ memP x q	false
Vale.X64.InsAes.fst	Vale.X64.InsAes.va_codegen_success_AESNI_imc	val va_codegen_success_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	val va_codegen_success_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	let va_codegen_success_AESNI_imc dst src = (va_ttrue ())	{ "file_name": "obj/Vale.X64.InsAes.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 350, "start_col": 0, "start_line": 349 }	module Vale.X64.InsAes open Vale.Def.Types_s open Vale.X64.Machine_s open Vale.X64 open Vale.X64.State open Vale.X64.StateLemmas open Vale.X64.InsLemmas open Vale.X64.Taint_Semantics open Vale.X64.Decls open Vale.X64.CPU_Features_s module I = Vale.X64.Instructions_s module S = Vale.X64.Machine_Semantics_s module P = Vale.X64.Print_s friend Vale.X64.Decls #reset-options "--initial_fuel 4 --max_fuel 4 --z3rlimit 20" //-- Pclmulqdq [@ "opaque_to_smt"] let va_code_Pclmulqdq dst src dstHi srcHi = (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_Pclmulqdq dst src dstHi srcHi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Pclmulqdq va_b0 va_s0 dst src dstHi srcHi = va_reveal_opaque (`%va_code_Pclmulqdq) (va_code_Pclmulqdq dst src dstHi srcHi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_Pclmulqdq ((if dstHi then 1 else 0) + (if srcHi then 16 else 0))) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Pclmulqdq dst src dstHi srcHi va_s0 va_k = let (va_sM, va_f0) = va_lemma_Pclmulqdq (va_code_Pclmulqdq dst src dstHi srcHi) va_s0 dst src dstHi srcHi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VPclmulqdq [@ "opaque_to_smt"] let va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi = (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VPclmulqdq dst src1 src2 src1Hi src2Hi = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VPclmulqdq va_b0 va_s0 dst src1 src2 src1Hi src2Hi = va_reveal_opaque (`%va_code_VPclmulqdq) (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VPclmulqdq ((if src1Hi then 1 else 0) + (if src2Hi then 16 else 0))) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VPclmulqdq dst src1 src2 src1Hi src2Hi va_s0 va_k = let (va_sM, va_f0) = va_lemma_VPclmulqdq (va_code_VPclmulqdq dst src1 src2 src1Hi src2Hi) va_s0 dst src1 src2 src1Hi src2Hi in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc [@ "opaque_to_smt"] let va_code_AESNI_enc dst src = (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc) (va_code_AESNI_enc dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc (va_code_AESNI_enc dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc [@ "opaque_to_smt"] let va_code_VAESNI_enc dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc) (va_code_VAESNI_enc dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc (va_code_VAESNI_enc dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_enc_last [@ "opaque_to_smt"] let va_code_AESNI_enc_last dst src = (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) [@ "opaque_to_smt"] let va_codegen_success_AESNI_enc_last dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_AESNI_enc_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_enc_last) (va_code_AESNI_enc_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_enc_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_AESNI_enc_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_enc_last (va_code_AESNI_enc_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- VAESNI_enc_last [@ "opaque_to_smt"] let va_code_VAESNI_enc_last dst src1 src2 = (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) [@ "opaque_to_smt"] let va_codegen_success_VAESNI_enc_last dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_VAESNI_enc_last va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_VAESNI_enc_last) (va_code_VAESNI_enc_last dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_VAESNI_enc_last) (OReg dst) (OReg src1) (OReg src2))) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_VAESNI_enc_last dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_VAESNI_enc_last (va_code_VAESNI_enc_last dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- AESNI_dec val va_code_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec dst src = (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec dst src = (va_ttrue ()) val va_lemma_AESNI_dec : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec) (va_code_AESNI_dec dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_s.inv_mix_columns_LE (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst)))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec (va_code_AESNI_dec dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec dst src)) = (va_QProc (va_code_AESNI_dec dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec dst src) (va_wpProof_AESNI_dec dst src)) //-- //-- AESNI_dec_last val va_code_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_dec_last dst src = (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) val va_codegen_success_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool [@ "opaque_to_smt"] let va_codegen_success_AESNI_dec_last dst src = (va_ttrue ()) val va_lemma_AESNI_dec_last : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_AESNI_dec_last dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))) [@"opaque_to_smt"] let va_lemma_AESNI_dec_last va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_AESNI_dec_last) (va_code_AESNI_dec_last dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0; let (va_sM, va_fM) = va_eval_ins (mk_ins (make_instr (I.ins_AESNI_dec_last) (OReg dst) (OReg src))) va_s0 in (va_sM, va_fM) [@ va_qattr] let va_wp_AESNI_dec_last (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 = (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ aesni_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (Vale.AES.AES_common_s.inv_sub_bytes (Vale.AES.AES_s.inv_shift_rows_LE (va_eval_xmm va_s0 dst))) (va_eval_xmm va_s0 src) ==> va_k va_sM (()))) val va_wpProof_AESNI_dec_last : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_AESNI_dec_last dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AESNI_dec_last dst src) ([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) [@"opaque_to_smt"] let va_wpProof_AESNI_dec_last dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_AESNI_dec_last (va_code_AESNI_dec_last dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_flags; va_mod_xmm dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) [@ "opaque_to_smt" va_qattr] let va_quick_AESNI_dec_last (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_AESNI_dec_last dst src)) = (va_QProc (va_code_AESNI_dec_last dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_AESNI_dec_last dst src) (va_wpProof_AESNI_dec_last dst src)) //-- //-- AESNI_imc val va_code_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code [@ "opaque_to_smt"] let va_code_AESNI_imc dst src = (mk_ins (make_instr (I.ins_AESNI_imc) (OReg dst) (OReg src))) val va_codegen_success_AESNI_imc : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool	{ "checked_file": "/", "dependencies": [ "Vale.X64.Taint_Semantics.fst.checked", "Vale.X64.StateLemmas.fsti.checked", "Vale.X64.State.fsti.checked", "Vale.X64.Print_s.fst.checked", "Vale.X64.Machine_Semantics_s.fst.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Instructions_s.fsti.checked", "Vale.X64.InsLemmas.fsti.checked", "Vale.X64.Flags.fsti.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.Decls.fst.checked", "Vale.X64.CPU_Features_s.fst.checked", "Vale.Def.Types_s.fst.checked", "Vale.AES.AES_s.fst.checked", "Vale.AES.AES_common_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.X64.InsAes.fst" }	[ { "abbrev": true, "full_module": "Vale.X64.Print_s", "short_module": "P" }, { "abbrev": true, "full_module": "Vale.X64.Machine_Semantics_s", "short_module": "S" }, { "abbrev": true, "full_module": "Vale.X64.Instructions_s", "short_module": "I" }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Taint_Semantics", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.InsLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.StateLemmas", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.CPU_Features_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.Types", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 4, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm -> Vale.X64.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_operand_xmm", "Vale.X64.Decls.va_ttrue", "Vale.X64.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_AESNI_imc dst src =	(va_ttrue ())	false

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